Ask Anna
Your questions answered here...
STAY CURIOUS!!!
STAY CURIOUS!!!
This page is devoted to the daily questions our ladies have asked....See responses and links below.
If Anna doesn't know the answer... she will ask someone who knows!
Q: Are we all going to present our robotic hands? Or is it only those that want to? Does our robotic hand have to be finished by Friday? Or can we continue to work on it after the camp is over?
(Anna) You can continue to work on it when the camp is over, but we hope you can show it to us on Friday!
Q: If we do decide to return the materials will we only have to return the pi-top computer and the arduino or will we have to also return other things?
(Anna) The website is now ready about what needs to eb returned and what doesn't need to be returned. https://sites.google.com/view/2022-summer-physics-camp/forms-and-end-of-camp?authuser=0#h.9eufldmc30t0
Q: I should have asked Dr. Daley about why the arch's of my feet hurt when I play basketball and why I think I have a pressure point in my knee even though I've never been seriously injured.
(Anna) I think the best would be for you to talk to your primary doctor who knows you best!
Q: What should we do if one of our servo motors are broken?
(Anna) Check out the Materials return process. We ask that you label broken or malfunctioning equipment when you return it so we can inventory it and not use it for next camp.https://sites.google.com/view/2022-summer-physics-camp/forms-and-end-of-camp?authuser=0#h.9eufldmc30t0
Q: I am very interested in knowing if I can either volunteer or shadow at Los Alamos as a high school senior. Please let me know if you know any information, it would be greatly appreciated 😄.
(Anna) To actually have access to LANL property and Laboratory there is a process that needs to happen. There are few instances when public tours happen and we are not allowed to bring anyone in that has not been through the access process approval. I strongly encourage you to apply for an internship at LANL or SNL. If you are still in High School, your point of contact would be Cassandra Casperson who you have met! https://www.lanl.gov/careers/career-options/student-internships/index.php
Q: In the experiment with straws we used water because it forms a meniscus do other liquids form a meniscus? Do any gasses form a meniscus?
Q: Would you please send me the recording of "Do You Want to Learn More About Working With Data?" from Saturday? I really wanted to attend the session but had prior commitments.
(Anna) I will look for it, edit the remaining and do my best to share it with you
Q: What will be the side effects if people were not decontaminated after exiting the lab?
Q: Do any of the presenters offer some type of community service? (The presenter Sandra Begay got me thinking about that)
(Anna) Many presenters and Lab scientists volunteer in "community service" events. In fact the lab encourages staff to do it and offers up to 30 paid hours a year to lab employees to work in the community. I volunteer for the local shelters. When I didn't have kids, I used to cook a couple of times a month for the homeless shelter next to my house but when I had the kids, this was not possible for me anymore so, I started organizing collection events at work and collected food or clothes for the shelter. When I moved to Los Alamos, I offered to pick up items that people wanted to donate at people's houses and drive them to the right shelter (kids, or women.s or men's stuff). I am also a judge in science fairs and participate to other outreach events and started this camp 6 years ago. I am also a member of the J Robert Oppenheimer memorial committee (www.jromc.org) which fundraises and provides scholarships to high school students from certain schools and also organizes lectures and participates in science fair judging etc. At LANL I also organize technical seminars as part of being the chair of the P/T colloquium, participate in hiring panels and other project funding selection panels (LDRD) and in the past also organized the LANSCE Neutron School.
(Hubert) I do science presentations in Santa Fe schools: https://mrsciencesantafe.org/
Q: Can something become radioactive if it loses electrons as well?
(Hubert) Yes, there are radioactive decays where electrons are emitted from the nucleus. For historical reasons, these electrons are called beta rays. The nucleus that is left behind in many cases is radioactive. The other way a substance can lose electrons is by ionization. In that case, the electrons do not come from the nucleus, but are stripped out of their orbits around the nucleus. The nucleus itself is not affected by this, so the substance does not become radioactive.
Q: If you send a light into space that is perceived to not hit anything for a long time. will that light ever come back, or will it continue to travel and not come back?
(Hubert) Imagine a bug walking on the (2-dimensional) surface of a sphere, trying to always walk in a straight line. It may seem to the bug that it is walking further and further from its starting point, but we know that it will come back to where it started from. If we put the bug on a flat plane (also 2-dimensional), it will never come back around. So whether it comes back or not depend on the shape of the 2-D space in which it can move. Similarly in our 3D world, whether you eventually come back or not depends on the shape of the 3D space of our universe. If it has a positive curvature, you'll eventually come back, if it is flat (or has a negative curvature) you won't.
Q:If you do send something into space will it be affected by black matter?
(Hubert) Yes. That is because dark matter has mass, so it will pull on you, just like ordinary matter. When you go into space (or even when you don't), everything with mass is pulling on you. Most strongly the Earth, as it is close underfoot. The moon is pulling, the sun, pluto, even distant stars, though not much since they are far away, but still. When you're traveling in space, all these things, including dark matter, pull on you from different directions, affecting your trajectory.
Q: Why was 3d printing created?
(Hubert) Because it is sooo cool! Acually, there are many reasons. One is that you can print objects with shapes that you can not make any other way, like parts that are hollow, or sponge-like. ANother reason is speed: I use 3d printers because I can design a part on my laptop, and have it printed in a few hours. Before that, you would have to submit the design to a machine shop, and you would not have it delivered for weeks. It also can save material: in the past when for example you had a complicated metal part, you would start with a big solid block, and grind away at it until you had your finished part, plus a mountain of metal chips. Nowadays, you can even print houses with a big machine that squirts out a concrete slurry.
Q: How did we discover we can create plutonium? Was it an accident?
No, no accident (more to come)
Q: Is there a way that students can come back to the camp next year to help?
(Anna) Students can apply to be "helpers"/"assistants" next year. This year Serina Martinez is an "assistant". We don't have a "rule" precluding students to reapply but we want to make sure as many students as possible get this opportunity
Q: Was the website Asia showed us the other day with the galaxies an example of machine learning?
Q: Does elevation have an effect on the bath bomb mixture?
Q: Is there anyone that went to NMT?
(Anna) I would have to check but we will have representatives from NMT next Friday come talk to y'all.
Q: Could there be a typo in the code about the conditional statement on page 17 step 33?
(Joan) NO. there is no typo.
The conditional statement says:
if ( buttonState == HIGH )
Yes, we do want the double-= to check for equality.
if you wrote the following code:
if ( buttonState = HIGH )
you would still have legal code, but it means something else (something that you do not want). The circuit would not behavior the way you wish and you would spend hours scratching your head trying to figure out this bug!
Q: We have talked about how national labs focus on maintaining national security, so my question is "does that focus ever become corrupt from politicians?" If so how do scientists react and deal with that?
(Anna) There are different types of National Laboratories with different types of focus. https://www.energy.gov/national-laboratories. As we heard, scientists and National Laboratories do not make policies. We provide the information that the government then uses to base the policies. We report our findings in international conferences and in peer reviewed publications so others can learn from what we discovered or achieved and they can push the humanity's knowledge further. That is what we do day in and out. With COVID for example, scientists reported their knowledge at the time day in and out. As they learned more, they reported new information. Did they lied on the first paper? no!. They used the same scientific method you used in your science fair! At a given time, all our observations pointed to this conclusion. When we got more data, then the conclusion could change or still be the same but we remain true to the scientific method even when we don't like what we find out.
Q: How do solar panels collect energy from the sun?
(Anna) https://www.energy.gov/eere/solar/how-does-solar-work
"When the sun shines onto a solar panel, energy from the sunlight is absorbed by the PV cells in the panel. This energy creates electrical charges that move in response to an internal electrical field in the cell, causing electricity to flow."
Q: Will the world (or even the country) ever become completely solar?
"In their assessment published in Nature Communications, a team led by energy researchers at University College Cork in Ireland calculated a figure for the total surface area of all the rooftops in the world: some 0.2 million square kilometres—an area almost the size of the U.K. The authors then worked out that, if all the surface area was covered with solar photovoltaic panels, they could generate a total of 27 petawatt hours of electricity per year—more than the combined electricity consumption of the world in 2018.
That’s a lot of power. But the authors, led by Siddarth Joshi, a PhD student at University College Cork in Ireland, aren’t necessarily recommending that every rooftop on Earth must be festooned with panels. For one thing, the physical and logistical obstacles to such an operation would likely be insurmountable, and for another, the authors show that, from region to region, the costs of solar vary hugely. Just as crucially, electricity consumption could almost double in decades to come, according to McKinsey, dwarfing the total power consumption seen today.
But what the report does do is show how rooftop solar can best be deployed to help nations rapidly—and relatively cheaply—decarbonize and decentralize their power grids, as Siddarth Joshi himself explained"
(Hubert) In principle yes, but in practice it will be a combination of solar, wind and other sources. It is worth noting that a few weeks ago in the Netherlands, all electricity in the country was generated by solar and wind, and I believe the same happened last year in England, so it is not an idea that is far off. The key missing piece is energy storage to take care of night time and windless days.
Q: What was the scientific process that led to the invention of solar panels?
(Anna) I would say the photovoltaic effect discovery.
https://www.smithsonianmag.com/sponsored/brief-history-solar-panels-180972006/
"It all began with Edmond Becquerel, a young physicist working in France, who in 1839 observed and discovered the photovoltaic effect— a process that produces a voltage or electric current when exposed to light or radiant energy. A few decades later, French mathematician Augustin Mouchot was inspired by the physicist’s work. He began registering patents for solar-powered engines in the 1860s. From France to the U.S., inventors were inspired by the patents of the mathematician and filed for patents on solar-powered devices as early as 1888."
Q: How many different branches of optics are there? And what are all the different careers under it?
(Marein) Light can be used/investigated/controlled in such different contexts, that it is normally not useful to try to separate these into rigid “branches". If you are interested in Optics, you would normally study a general physics course, which would cover the basics of optics in the second year (once you have mastered mechanics, thermal physics, and electrodynamics). This will be quite an exciting process, and by the end maybe “optics” will mean something quite different to you. As with all of physics, the career possibilities are very broad - you can work as an optical engineer (e.g. to optimise machines that manufacture microchips), choose an academic career (in anything from astronomy to quantum optics), or even work as a patent lawyer or business consultant. You should not worry about finding getting a job, it’s more important that you identify a topic that fascinates you (easier said than done!)… I bet that the rest will fall into place.
Q: What do we do with the James Webb project when we are done?
(Anna) Send us a picture of you and the project! Learn more about what it is expected to measure. Show it to your family and tell them what you learned!
(Hubert)... also, NASA wants your picture! https://webb.nasa.gov/content/features/educational/paperModel/paperModel.html
Q: Did the big bang start from one point or multiple points or is that something that is still being researched?
Q: How many interns does LANL take at one time? During the summer do they take a select amount of interns, or is it just a simple apply any time and see if they accept?
(Anna) Here you can find LANL's external website about employees (which includes students and interns). And here you can find LANL internship website
Q: How long does is usually code a video game?
(Anna) Wikipedia says 3-5 years to complete the coding of a videogame- https://en.wikipedia.org/wiki/Video_game_development
Q: How do the resistors work? What happens without them?
(Anna) https://www.explainthatstuff.com/resistors.html
Q: Why did my white light bulb not work with the Arduino even when my code worked? (Maybe dead bulb?)
(Joan) Maybe you can pull out that bulb and put in a different one? We often need to do this kind of "Trouble shooting" to isolate and locate where the error is coming from.
(Hubert) You can test the LED using the pill battery from the copper tape activity: put the battery between the 2 legs, with the + side on the long leg. If the LED does not light up, it is dead (if so, throw it away and don't return it).
Q: Is there a way to ensure that you will get a job? I feel like getting a job comes with receiving a bunch of rejection and that's kind of hard for me so I just wanted to know if there is a way to make sure that the effort you put in something will actually pay off.
(Anna) Yes! put 100% in everything you do and someone will see your value. I personally believe the effort put into education is NEVER wasted. The more educated you are the more ahead you are from others and also the more you can offer to an employer and also the better pay you will get. It is always good to have mentors that guide your through choices. Today you heard Irene Qualters talk about subjects she thought were important to buid a career in computer science. So the same applies to all careers. I never imagined I would one day be a staff member at Los Alamos National Laboratory. I didn't even know where Los Alamos was!! At some point, while doing an internship while in college, I realized I enjoyed research and talked to people and they said that to be a researcher I had to do a PhD. So that's what I did! Then I wanted to get a job in Grenoble where I did my PhD and where my boyfriend was in France and i knew that to get a job there, I had to do a postdoc and apply for a job as a scientist so I came to the US to do a postdoc and... guess what... my boyfriend and I broke up and I asked at Los Alamos if they would hire me as a staff member and they did. And here I am 22 years later. Was it worth it??? I say yes!
Most of my friends from my Physics college, are working in finances or teaching or in their family business. Are they happy?? I hope so!
(Joan) Yes, getting lots of rejections is part of the journey, but you can't take it as a personal rejection. It happens to everyone. I recall the old rhyme about the farmer planting seeds in their field that goes "One for the rook and one for the crow, one for to rot and one for to grow". Only 1 seed out of 4 actually grows, but if you plant enough seeds you get a fine harvest!. I was terribly, terribly nervous when I first started to interview. After each experience I felt a little bit less nervous for the net time! So each interview did have a benefit.
(Sara) Rejection is incredibly hard for me, too. It’s very good advice to consider that even a job you don’t get is good practice going through the job application process. So rather than wasted effort, it is a learning opportunity. The more you can shift yourself towards seeing failures as chances to learn, the easier it can make it to get through them and come out stronger on the other side. Friends, family, and mental health professionals can also support you in having a strong sense of self worth that can survive when things don’t go your way.
(Marein) You will be successful if you find something that you love and then work hard at it. Please do not worry about rejection - you are way too young! Right now you should be more concerned about rejecting the wrong jobs (those that don’t really fulfil you). I would recommend focusing on "doing a great job" at whatever you choose to do. The good news is that this will be easier the more fun you are having. The tricky part just to find that thing that you really love. If you already know now (that’s rare), congratulations - this will give you a fantastic head start (but don’t be disappointed in case you find that things turn out different than you imagined). If you don’t know, just follow your intuition and explore different things for a bit. I want to assure you that your effort will pay off. Actually, I have often felt the opposite… you do have to put in a lot of effort (in college/academia), but often you get out much more than you put in.
Q: I wonder how coders make the coding software, there has to be some coding that goes into making those applications. Where did the first coding application get coded to make that application?
(Joan) Wow! this is a GREAT question. I could spend weeks to give you a proper answer! The first program to ever run was on the EDSAC computer in England in 1951. How do we program a computer? How do we give it instructions? Everything (and I do mean everything!) inside the computer is just 0's and 1's, like: 0110100100011111100010101010100010001111111.... this is the only thing that a computer can understand. Either the electric current is flowing or it is not. The very first programmers had to write something like 10101000111110010001 in order to feed instructions into the machine (ack! it was that bad! so hard to do). When we write our program for the Arduino, then stuff that we type must be converted/translated into this sequence of 0's and 1's. The program to do that is called a compiler. Compilers were invented/written about 1960 and led to an explosion in the use of computers throughout society.
Q: How did the infrared sensor worked?
Inside, there is a semiconductor junction that produces a voltage when it absorbs a photon of infrared light, much like what happens in a solar power cell.
Q: What type of code are we currently using?
(Joan) We are programming in C++. See Q/A below
Q: Are we allowed to keep anything after the camp? And if so what is allowed?
(Anna) At the end of the camp we will give you a list of the things that need to be returned and the things that you can keep (eg Book, calendar, magazine, notebook etc). Somethings like the potato or the M&M will be consumed while others like the optics boxes, tool boxes, solar panel box etc we ask that you return. Then there are the things that you can choose to keep in exchange of your stipend like the Pi-Top and Eleego box and Robotic hand materials (if you actually weren't part of this project team and want to do it on your own after the camp). You will get that list before the end of the camp, I promise!
Q: So we can get a recording of the class session if we need one?
(Anna) Yes, send email to spcyw-nm@lanl.gov and request the exact lesson.
Q: One question I have about today's lesson is what are the most commonly used programming languages right now, and do we have an estimate on how many will be created in the future?
(Joan) Currently the most popular languages are (in order): Python, Java, Javascript, C#, C++, PHP and R. We are using C++. There are thousands of different programming languages out there! Just like there are lots of human languages. Some languages (human and machine) are "dead", like Latin. No one actually speaks them day-to-day any more. We have no estimate at all about how many will be developed in the future! Trying to predict the future is very difficult. 30 years ago I would have said that being able to talk to a computer and have it understand you would NEVER happen, it was too difficult to do. But now we have Siri and Alexa! Different programming languages send to be used a lot in a specific field. For example, R is used extensively in data analysis when a lot of statistics needs to be done (such as average, standard deviation, etc.) Check out Sara Mason's demo about data on Saturday afternoon!
(Hubert) I don't know about the future, but here is a view of the past:https://www.researchgate.net/figure/A-brief-history-of-high-level-programming-languages-from-1956-to-2004_fig1_3248243. What the diagram does not show is that there are vast amounts of code in older languages (COBOL (1960), Fortran 77 (1977)) that are still in use today. Learning any of the modern languages will teach you how to 'code think', and after that you can pick up any other language easily, especially if they belong to the same family tree.
Q: How to code a led? (I struggled a little)
Q: How do you start from scratch when coding?
(Hubert) I find the best way is to have a project or a challenge (or in school, an assignment). There are countless 'xxx for beginners' and 'xxx tutorial' videos online.
Q: Why isn't my blue light detecting my object? (IR Proximity Sensor)
(Hubert) email Hubert or Adriana and we'll help you troubleshoot it.
Q: What type of coding did we do?
(Hubert) It is sometimes called procedural: first do this, than that. If this thing happens, do that, if not, do the other thing, etc.
Q: In regards to building the James Webb telescope where do we find the instructions? Or are we meant to figure it out and assemble it ourselves?
(Hubert) There are no instructions but the picture in the first sheet shows the finished model. If you are not sure, here is a video: https://www.youtube.com/watch?v=fc9Fifyv8OY
Q: Can you code anything to the arduino?
(Hubert) Not anything - the onboard memory in the Arduino limits the size and complexity of what can run on it. Still, that leaves a large space to let your creativity run wild.
Q: Are the interviews on Saturday with Sara mandatory or optional?
(Anna) There are NO Interviews on Saturday. There are a number of activities (after 4:30 and on saturday) and challenges but none of them are mandatory. You chose to attend this camp and it is up to you to take advantage of the extra opportunities offered! Your call! For the stipend, attendance is required from 9:30-4:30PM
Q: How would the battery and magnet experience change if you changed the scale or ratio of each?
Q: Are man made crystals and earth crystals truly the same thing?
(Hubert): In principle they could be the same thing, indistinguishable in any way. However, 'natural' crystals typically contain impurities, which can be specific to the place where they are found. For example, natural diamonds can come in different colors, depending on the (non-carbon) impurities. Of course, the folks that grow diamonds in the lab can add these too, leading to a cat-and-mouse game. The 'natural diamond' mining companies really don't want to lose their monopoly position.
Q: How long does it take to finish a PhD in astrophysics including all years of schooling?
(Asia) Great question, because this differs between the US and Europe.
In the UK your path would take a total of 7.5 years (like it did for me): 3 years undergrad + 1 year Master's + 3.5h PhD
In Europe, the whole path would take 8-9 years: 3 years undergrad + 2 years Master's + 3-4 years PhD
In the US, grad school can take much longer and hence the whole path can last 9-12 years: 4 years of college + 5-8 years of grad school (Master's + PhD)
(Marein) Doing a PhD is one of the best parts of a science career, because you have great freedom in your research (and only few obligations). You must not see it as a “means to an end”!
Q: How long is the process of getting accepted into LANL?
(Anna) Well it depends! Are we talking about Internships? The important thing with internships is to make connections and approach mentors and tell them what you are interested in and make sure you submit all your materials early! I believe internship season starts in January and students should be placed by April.
Q: How come some people got graphite models and some got diamond rather than everyone getting the same?
(Anna) In fact some people got graphite, some got diamond and some got salt! Because these are the sets we purchased for the camp. I really like the graphite and diamond comparison because they are both JUST carbon and the way they bond with other carbons determines their crystal structure and their properties and that leads to the strongest material (diamond) and a weak material (graphite)
Q: Did anyone go to New Mexico Tech or know much about it? If so I would really enjoy talking to you and learning about what I can do to help me get into NMT and where it can take me into the future.
(Anna) We will have a representative from NMT the last day of the camp come talk about opportunities there but I am pretty sure there are a number of volunteers that attended NMT. Just ask!
Q: how does a telescope reach that ib space?
(Hubert): Not sure if this will answer the question, but here is a nice article about where JWST is in space:https://jwst.nasa.gov/content/about/orbit.html, and here is the launch and the first unfolding:https://www.youtube.com/watch?v=Whh0ffL9kKE
Q: How can you figure out the potential energy of the train car before you put it in the coil and the kinetic energy once it is in the coil?
Q: I was wondering what their opinions on choosing a career you like despite the income. I am a little worried about choosing a career I genuinely would like because I don't want to feel like I'm making less money than I could be.
(Hubert): The most important thing is to choose something that you like doing, since you'll be doing it for a long time. I also would not worry too much about money, since any career in a STEM field is likely to be a well-paying job
(Asia): Adding to Hubert's point - academic STEM careers usually pay less than their non-academic equivalents. It does not mean you cannot be a scientist and earn a good wage - it simply means that if you would like to be a professor one day, you should expect to wait for your high salary for a little longer than in private Research and Development setting.
(Joan): I have spent my entire career in Academia as a professor, and I have been paid pretty well. I can live very comfortably and do the things I want to do. Working in a University gives you FAR more freedom than working in Industry or even a National Lab. No one punches a time clock, or fills out a weekly time card. But you have to be careful to get a tenure-track position at a University and not a Lecturer position (which is strictly a teachinig job with little change for advancement or growth in your career)
(Sara) Everyone gets to decide what their priorities are when it comes to their job, and there are lots of priorities to consider aside from what you get to do in the job and how much money you make. Others include: where you get to live (is it a place you like? Is it a good place to have a family? Is housing affordable? Do other people from the same communities you belong to live there?), how stable the job is, how many opportunities for advancement there are, who you get to work with and for (this is really important! An awesome job is NOT AWESOME if you hate the people you have to be around), the degree of work-life balance, and how well the job meshes with your values and principles. For some people, making a certain income (beyond the minimum you need to survive) is a major priority, and that’s okay. Income was a big reason why I did not enter the job market as an academic linguist (which was my passion and what I really wanted to do with my life). The academic job market is very bad, with the number of people seeking university positions vastly outnumbering the number of positions available. I did not want to do a national job search, I wanted to continue to live with my partner, and that would mean I’d either be unemployed or making well below the poverty line if I only sought out opportunities in this field. My point is that it’s okay for you to prioritize doing what you love, making money, getting to live in a particular place, or any other thing that is important to you in your job search. I suggest you think about the kind of life that you want to have, and the most important criteria that a job needs to meet in order to support you having that kind of life. Your job does not have to be your only source of interest or satisfaction, but hopefully it can make a contribution to meeting your material, intellectual, and emotional needs along with other activities that you spend time doing.
Q: Is there a date set for when the first pictures/data from the JWST will be released?
(Hubert): July 12, see https://www.nasa.gov/feature/goddard/2022/first-images-from-nasa-s-webb-space-telescope-coming-soon
Q:Are the camp challenges mandatory? Like, could we just do one challenge instead of all of them?
(Anna) Challenges are not mandatory but you are here because you wanted this unique opportunity to learn and be surrounded by people that know more than most people you know and that wish you challenge yourself and inquire and be curious and that's why we set challenges.
Q: For the tiny light bulb, is the shorter leg the positive or negative leg, vise versa.
(Hubert): The long leg connects to the positive voltage
Q:Could neutron scarleting be used in space on things such as the JWST to find signs of water and possible life in space?
(Hubert): Neutron detectors were used to find water on the moon. But you need to be pretty close to do this, so it would not work for looking for water on exoplanets. JWST only looks at light, it does not have neutron detectors on board. But water leaves its fingerprints on the spectrum of light coming from distant planets, and that is how we look for water in space.
Q: Could growing crystals be used to learn about the history of the world by creating rocks and seeing how the same rocks were formed in a certain area?
(Hubert): Yes, this is an active area of research. There are many questions having to do with the properties of materials deep inside the earth, and scientists subject crystals to enormous pressures to see what their properties are. These properties determine the flows of matter and heat deep inside the earth, and these in turn affect what happens on the surface, all through the earth's history.
Q: And why is copper so conductive?
(Hubert): I found this explanation pretty good: "We all know, that the smallest unit of all elements is an atom. An atom is a neutral particle with a positively charged nucleus at the center, and negatively charge electrons moving in a number of orbits around the nucleus. The electrical conductivity of an element is determined by its atomic structure. There are several millions of atoms in a piece of metal. Each atom of a metallic element has two or three electrons in its outermost orbit which are also known as valence electrons. The atoms form a metallic bond with each other to give a closely packed stable structure to the metal. During formation of these bonds, the valence electrons present in the outermost orbit are completely detached from their parent atom, and can move freely in the space that lies within the lattice structure of the metal. When there is no electric field, the electrons move around in a scattered manner in different directions. On application of an electric field, the electrons start flowing from one end to the other of the metal. Thus the large number of free-flowing electrons are responsible for conducting electricity through the metal. They act as charge carriers, and carry electricity through the structure of the metal.
Q: On a bigger scale using the magnets from the electromagnet demo, how do scientists stay safe but also complete their research if the magnets and materials they use are so incredibly dangerous? This also goes for every aspect of what we did today.
(Hubert): Many of us work with stuff that could be dangerous. These could be electrical hazards, chemicals, high-pressure gases, radiation, magnetic fields, sharp knives etcetera. When we work with these things, we put in place all kinds of protections, rules and checks, so that in the end when we show up for work we don't run the risk of getting hurt, as long as we follow the safety rules. Every year, we get lots and lots of training and reminders about how to work safely with all these things.
Q: Also I was wondering, how long does it take to find the one specific field you are interested in? Because usually when I think of chemistry I think of mixing liquid chemicals but now that I saw there is chemistry in solid materials/minerals, I was interested in how one discovers such specific and small aspects of lager fields.? Also how much of being in STEM provides uncertainty when it comes to finding a job or how much risk is involved in taking a job? Does that influence one's decisions?
(Joan) You learn such things bit by bit as you move through your education. Each step along the road your studies become narrower and narrower. In High School and the beginning of College you should take a wide range of course (Chemistry, Economics, Music, etc.). The more classes you take the better you will know if Chemistry is really something you like. And getting a Summer Internship (at LANL or Sandia or wherever) is a wonderful opportunity to see if you really like a field.
(Anna) I agree with Joan. I also think that the easier the degree... the more people take it and the less competitive we are. For me, I could have been a medical doctor, a teacher or a Physicist... somehow I ended up going to Physics. Was I thinking about research at National Laboratory? Certainly not! I had no clue!
Q: Can any two crystals be the exact same?
(Hubert): In principle yes.
Q: What does the process of getting a Doctorate degree look like?
(Joan Lucas) It took me about 5 years to get my PhD in Computer Science after I finished my Bachelor’s degree. The first year or two is like being in college, where you take a bunch of courses. While taking courses in CS, you get a better idea of which sub-field is more interesting to you, and you identify a Professor that you would like to work with. If the professor let’s you join their team, you start working on that research project. You do experiments, develop new algorithms, and push the envelope of human knowledge in the specific are of Computer Science. Eventually you write your PhD thesis, which describes the particular project that you worked on, and the particular discoveries that you made. A thesis is like a book. My thesis was about 180 pages, and that was considered unusually short. Bu the time you finish your thesis, you are the world’s expert in that particular, specialized topic! For real! After the first year or two, being a grad student in like holding a job. You get paid to be a PhD student (unlike undergraduate study!)
Q: Does an electromagnet have a magnetic field or an electromagnetic field?
(Hubert): We sometimes use the terms interchangeably. You can think of a (non-moving) magnet as having an electromagnetic field with the electrical components all zero.
Q: Where can you find the materials for these types of experiments because I really enjoy doing them.
(Hubert) I like to devise experiments that you can put together with simple materials you (mostly) can find around the house or find at the hardware store: cardboard, clothespins, paperclips, wire, empty bottles etc. For some other experiments we know roughly what we want and buy stuff online.
Q: What are some things I can test my digital multi-meter on?
(Hubert): On the Voltage setting (look at the multimeter cheat sheet), measure the voltage of the different batteries in the kit: the AA batteries in the Doppler kit, the small 2032 pill battery from Monday, the 9V rectangular one from the IR sensor from yesterday, See what happens on different DC V settings. Also look at the potato battery activity https://www.mrsciencesantafe.org/summerschool/2020/potato.html
On the resistance setting, you can see that just about all metals have virtually zero resistance. If you look in the Elegoo kit, and get out the resistors, see how the resistance you measure compares with what is written on them: are 1K resistors all exactly 1000 Ohms, and are they all the same? Measure the resistance of graphite: find a pencil with the eraser missing, and measure the resistance from the back to the tip. Measure the resistance of paper, then of wet paper. How about water, salt water etc.
Q: How is the process from making a diamond and lead (graphite) different?
(Hubert): Graphite is basically made by cooking stuff that contains a lot of carbon, such as the tarry residue that is left over in oil refineries. This is done in many stages, but is not very difficult. Diamond in nature is formed when natural graphite is subjected to enormous pressures and temperatures deep inside the earth, and then comes up for example in volcanic processes. Industrial diamonds can also be made in a similar way, starting with graphite and applying high pressure and temperature. Another way industrial diamonds are made is by evaporating hydrocarbons in a near-vacuum chamber, and letting the atoms 'condense' into diamond.
Q: How did the big bang happen and why? How do we know that the big bang happened and was there anything before it?
See below
Q: What exactly are black holes?
Recall the picture from Asia's talk of a star, where the outer part of a star is 'held up' by the pressure of the radiation from the nuclear furnace in the center of the star? What happens when the furnace has used up all the fuel? It depends on the size of the star: if it is not very big, the star will somewhat gently settle into old age, getting dimmer and colder indefinitely.
For bigger stars, remember the picture of an atom we saw: a very small nucleus, made from protons and neutrons, surrounded by electrons. This atom is mostly empty space: if an atom is scaled up to the size of a cathedral, the nucleus would be the size of a fly. When a big star collapses, matter in the center is crushed to where protons in the nucleus and electrons are crushed together into neutrons, and the empty space is squeezed out. The result is a neutron star, where one teaspoon weighs about 10 000 000 000 000 pounds. But what if even those neutrons get crushed? The matter gets denser and smaller, maybe indefinitely smaller, forming a black hole. Why this name?
This is why: for an object of a given mass, such as the Earth, the 'escape velocity' is the minimum speed a rocket needs to escape from the earth to faraway space. To escape from the Earth you need to go at least 11 km/second. But if you crush the Earth to 1/2 its current size, and you have to lift off from this smaller ball, you would need to go 44 km/s. Imagine you could crush the Earth to the size of a pea, then the escape velocity would be 300 000 km/s, equal to the speed of light. This means you could not lift off from this pea and reach space, and nothing could escape beyond this surface, not even light, so it would be perfectly black. What happens inside this surface (called the event horizon) can never be observed.
Q: What should we do with wires we coiled?
(Hubert): You can keep them and maybe you can use them in the future. Otherwise return them at the end.
Q: Why were there two kinds of black "atoms" in the mineral structure kit? (There was a 4 hole kind and a 5 hole kind)
(Hubert): These correspond to the different crystal forms that carbon can make. For diamond, 4 bonds in the shape of a tetrahedron, for graphite 3 bonds in a plane to make hexagons, and then 1 up and one down to stack the planes for a total of 5.
Q: Can you make more than one light turn on with a battery and copper tape?
(Hubert): Yes, look halfway down this page: https://www.mrsciencesantafe.org/summerschool/2021/house/index.html there are lots of different ways!
Q: Did the big bang start from one point or multiple points or is that something that is still being researched?
(Asia) We currently think that the Big Bang happened everywhere simultaneously. It is not an 'explosion' or any other event happening in space. It is a rapid explosion-like expansion of space itself. So the Big Bang happened all throughout space at the same time. The state of infinite density when the Universe was small beyond imagination is called a singularity and this initial singularity contained all of the mass and energy of the Universe that we observe right now.
Q: Are there any other STEM opportunities that you know of?
Yes, there are many in person and also virtual. Below are some that are FREE or nearly free:
If you live in Santa Fe: Do you know about STEM Santa Fe: https://stemsantafe.org/ They organize all sorts of STEM opportunities
In your junior year summer and senior year you can also be an intern at LANL. Cassandra Casperson will talk more about such internships but here is the website:https://www.lanl.gov/careers/career-options/student-internships/
Virtually in computer science:https://www.orcsgirls.org/home
Explora Teen Science Cafe (they have this once a month on a different topic, follow their event schedule here)
Search for a local Girls Who Code Chapter
(Asia) If you are interested in Astronomy/Astrophysics, here is a list of useful links for high school opportunities, including university-specific programmes like MIT or CALTECH: https://www.astrobetter.com/wiki/Summer+Internships
Q: Are there any open scholarships that you know of?
if you are asking applications that are open now, I don’t know but I suggest you look through the links below and any links others, smarter and more knowledgeable than me, might be able to add to:
J Robert Oppenheimer gives scholarships every year: https://jromc.org/jromc-scholarship-application-process/
Here is a link to NM department of Education about state scholarships:https://hed.state.nm.us/financial-aid/scholarships
Los Alamos Scholarship Fundhttps://www.lanlfoundation.org/our-work/scholarships
Q: What does NM Tech have in terms of dual credit/underage admissions programs?
A: New Mexico Tech offers dual credit to students who attend high schools in the general area of the campus. Unfortunately we are not able to offer dual to everyone, but you are still always welcome to take summer courses with us. New Mexico Tech does also have a yearly summer program, The Summer STEM Experience, for rising juniors and seniors. We are looking to hopefully expand that program and open it up to all high school students in the coming years. You can always feel free to reach out to the Office of Admission for more information about that program. J. Cervantes
Q: What impact does volunteer hours have at UNM?
A: Volunteering can be very beneficial once you start to look for internship or job opportunities. Volunteering also enhances your academic career and helps you network with potential employers. Additionally, programs like the BA/MD or Nursing highly encourage volunteering for their application process. P. Nunez
Q: What impact does volunteer hours have at NMTech?
A: For admission, volunteer hours do not have any impact. We try to keep our admission process very straight forward which is why it is strictly based on GPA and test scores. Volunteer hours can help you out for other things though, such as non-institutional scholarships, future internships, on and off-campus jobs, etc. So do not feel like they are at all useless! J. Cervantes
Q: What impact does volunteer hours have at NMSU?
Q: On the material return form, what do you mean by "yes" and "no"?
Q: Athena - Where would the pocket nuclear reactors go to? And how long do these nuclear reactors last?
A: I am certain that they will be trained. However, similar to how spent nuclear fuel is transported, these microreactotors will be very safe and and their transportation will have to adhere to strict regulations to ensure everyone's safety.
Q: Priscilla Nunez- Can you provide me with more information about the BA/MD program? I interested in pre-med so I would love to learn about the BA/MD program.
A: The BA/MD program allows high school seniors to apply to our Medical School. If a student is accepted into the BA/MD program they will have a reserve seat into our Medical School, will obtain a full ride scholarship for the undergraduate program, and will get mentorship. You can learn more about the program by visiting https://hsc.unm.edu/medicine/education/ba-md/. P. Nunez
Q: How old do we have to be for us to apply for an internship?
A: Most internships do not have an age criteria but might have a classification (sophomore, junior, etc.) requirement. I recommend looking for internship opportunities once you start at UNM. There are a lot of opportunities provided by our Career Services Office, https://career.unm.edu/.P. Nunez
A: At New Mexico Tech many of our students start internships the summer between their freshman and sophomore years. Because of this they are able to gain a great amount of experience during the entire course of their undergraduate degree! Many of these students are continuously asked back by the companies that they intern with every year as well, and many are even offered jobs by these companies at the end of their final summer before they graduate from New Mexico Tech. In the past I have even seen internship opportunities for high school students though, so don't be afraid to look around. You never know what kind of amazing opportunities that you can find! J. Cervantes
Q: when going into the military at the age you did, is it possible to do a different job that doesn't include the fighting?"
A: I had training to help me survive any situation (I was in the Marines after all), this said on my day to day job there was no fighting as I was an electronics tech. There are many other jobs one can do mostly using your brain and I can elaborate further (ie translator etc) . Also, the military does not just go to war but there are branches that do live saving missions; help citizens after a big flood/fire, medical emergencies, earthquake search and rescue etc etc Astrid Morreale
Q: Did being in the military benefit your educational journey? Besides financially.
A: Yes, of course! there is very little in this world that I think I cannot do, I also have a larger view on things than my peers . I am known for getting things done and efficient and that is probably thanks to my military training. I also traveled to Japan and learned Japanese and visited many many states within the USA. Today I still have many friends that I keep in contact from the time I was in the military.-Astrid Morreale
Q: Did you do anything STEM related in the Marines?
A: Lots of STEM outreach, specially in racially segregated areas in the USA and with kids with disabilities in Japan. -Astrid Morreale
Q: How was you're experience with the military? I was considering taking the same route as you, but I have some doubts that maybe you could clear up.
A: Well it depends what your ultimate goal is. I wanted to finance my education, gain financial independence while getting a different view of the world along the way.- Astrid Morreale
Q: (Stacey Copp) Why doesn't pen ink dissolve like highlighters or color markers?
A: Great question! Anna did an experiment to best illustrate the answer. Here is a picture to show the answer. Basically, permanent markers and pens often have inks which don't dissolve in water (are not soluble in water), but certain organic solvents can dissolve the ink to enable chromatography. So if you need to clean sharpie off of your skin or clothes, maybe try hand sanitizer!
Q: Are there any national societies for asian-american students?
A; yes the most famous one is SASE:
Astrid Morreale
Q: Is there a paper that gives us information on what we get to decide what we get to keep or have at the end of our camp? Cause i need more info.
A: Look into the Materials Return google form sent on 6/17. If you follow the instructions, you will see what you can keep and what you need to return
Q: I would like to ask Alex Miera if she is worried that the research she does, especially any research going to the military/ the iron man, will go into unethical projects in the future.
Q: Why does the Sandia Hand only have 4 fingers?
A: The pinky is actually unnecessary when picking up and gripping things. Usually when you go to pick something up or move it, you naturally try to get your pinky out of the way when doing these tasks. That’s why the Sandia hand only has 3 fingers and a thumb. C. Gilbert
Q: How old do we have to be to apply for internships? also is there any more programs like this that you know of?
A: To apply for the High School Internship Program at Los Alamos National Laboratory, you must at least 16 years old at the time the internship begins AND have senior standing in high school. The earliest a student can apply is the second semester of their junior year in high school, in order to intern the summer after completing their junior year, when they have senior standing. More information about the LANL High School Internship Program is available at https://www.lanl.gov/careers/career-options/student-internships/high-school/index.php. Information about addition opportunities are available on the STEAM Hub of Northern New Mexico website at https://www.nmsteamhub.com/.
Q: I would like to ask Ms. Astrid Morreale more about her pathway in education. I was wondering if it was possible to join the military and the path she chose, but instead of engage in combat like she did and instead perform a STEM related service.
A:Not everything involves combat. There are many other jobs one can do where you will be guaranteed to be off the front lines and be in a STEM field: bio-chemist, lab tech, medical field, engineering etc. Also there are branches that specialize in domestic live saving missions; help citizens after a big flood/fire, medical emergencies, earthquake search and rescue etc etc Astrid Morreale
Q: How would our society be now if the women pioneers of science didn't come forward and it remained exclusive to men?
A: What a really interesting question! I don’t know that there is a specific answer, however, you can look around at what women do, what professions they are in and you see that they view the world from a different perspective than men. I think that if STEM were exclusively male than you would not see as many solutions to family and community problems.
I would say that the discovery of DNA not only helped us understand how genetic information is transmitted through generations; it also gave rise to a number of new fields, of which biophysics is one. Unlike pure biology, where experiments often involve observing live cells and understanding their peculiar behaviors without unnecessary physical manipulation, biophysics has a different approach and studies live cells from a physics perspective. For example, a biologist would ask a question— “what happens if a gene is no longer expressed, how does this affect the organism?” whereas a biophysicist would want to know if the fact that a given gene is not expressed (turned off) is affecting cell structure and other properties by say stretching it and recording associated forces and changes from a control case where a given gene is expressed (turned on).
You may find this Forbes article interesting— it also features the work Karissa did on the largest billion atom simulation of an entire gene.
There are many things we still do not know about DNA (for example, we study how the DNA folds to form chromosomes— I am attaching a video of a chromosome model I made below). There is plenty of work to do for the future generation of scientists like you! -Anna Lappala
Q: Question for Athena- Are the truck drivers that transport the nuclear power trained to work with it in case there is ever an emergency?
Q: If too much radiation causes cancer, why is radiation used in cancer treatments? Are different types of cancer more sensitive to radiation?
A: Great question! All radiation is not equal. Radioisotopes used for medicine usually have very short half-lives (the time it takes for half of the isotope to decay away), usually hours to days. This is important so there is the maximum impact on the diseased cells but effect on the body as a whole is minimized. In addition, the delivery method for the isotope is essential. Isotopes can be targeted by tethering them to a biological molecule like a protein that is attracted to the tumor, so the decay energy goes to a specific place. The type of radioactive decay is also important. Alpha emitters are good for small tumors (short path length) and beta emitters for larger tumors (slightly longer decay path). All of these different aspects have to be considered and optimized when designing a radioisotope therapy. Eva Birnbaum
Q: Question for Heather- What was the most difficult part when you were apart of the launch team for perseverance?
Q: My question goes out to Marcey Hoover: You mentioned your passion to leave the environment a little better than you found it. I was wondering a few examples of what you do in your personal and professional life to fulfill this urge.
A: On a professional front, I take the time to speak at both internal and external events, encouraging people to take on careers that take action to combat climate change and contribute via science and engineering. Here is a link to a panel session that I moderated earlier this spring form the DOE YouTube channel:
https://www.youtube.com/watch?v=w7OA8MljFqw
On a personal front, we do simple things. For example, my family opts to take our car that gets better gas mileage on any driving trips to not use as much fossil fuels, we only heat and cool the portions of our house that are used constantly (e.g. kitchen and bedroom) to conserve energy, and we have planted low-water use landscaping at our house to conserve water!
Q: What do you think you will be working on in the coming years (as your job appears to "change throughout the project lifestyle")?
Q: I would like to know what factors were taken into consideration when developing the vaccine and how it would mimic the virus.
A: The main two considerations were safety and efficacy.
The concept is as follows: the goal is to expose a person to a small piece of the COVID-19 virus enabling the person's immune system to specifically recognize the full COVID-19 virus; however this piece can't be too big (too much of the virus particle), otherwise this could result it infection. In addition, the synthetic piece of the virus needs to be stable enough to last in the body long enough to produce a robust immune response. The spike protein fits the bill perfectly. The spike protein resides on the outside of the virus and is the main piece responsible for interacting with our immune systems. The spike protein by itself connect cause an infection. It also is quite stable.
In terms of the Moderna and Pfizer mRNA vaccines, these vaccines consist of the mRNA surrounded by a shell. The shell and the mRNA need to be designed to be stable enough to survive the trip into our bodies' cells to the ribosomes, which will use the mRNA to make the spike proteins. Because the mRNA only codes for the spike protein, it cannot cause an infection. - Karissa Sanbonmatsu
Q: We’re all rovers tested in chambers or just some?
Q: For Amy Tainter- Do you think working so hard on the ranch growing up and in your adult life has helped you in your career? If so, in what way?
A: I can honestly say that most of my work ethics came from my two hard working parents (do not have an education) but worked so hard for my brothers and I to have everything we needed. second came from raising animals where my dad taught me discipline, responsibility since 11 years old and dedication to my projects (steers, swine, lambs, and horses) year after year. Then I have to thank my FFA advisor in High school who also disciplined, taught me all about life and first and for most to never be late and how to speak in front of a crowd. Ranching is only a small fraction of hard work it takes dedication, perseverance and goals/drive to want it because it is not an easy life style.
Sometimes as a woman in any career whether it be ranching, Engineering, Physicists, chemist, nursing, doctor, teacher, or officer you might feel that you have to prove yourself at one point or another but at the end of the day, the only one you have to prove to is yourself that you give everything you do 100% and you love what you do!- Amy Tainter
Q: What happens to the solar panels if it hails outside?
A: Part of designing and manufacturing any product is to build into the design features to protect it while it is operating. This is what many engineers do in all types of industries including solar. Additionally, governments (state and federal) can sometimes write laws that say products must survive in certain conditions: think buildings in earthquakes and hurricanes. IN which case, a team of engineers will design and execute tests to make sure their product meets the regulations. I was curious about hail on panels too because my family is going to have them put on our house and we get a lot of hail. So I found this information from the Dept of Energy https://www.energy.gov/eere/articles/hail-no-national-labs-solar-panels-survive-severe-storm Looks like we should be ok! M. Decroix
Q: Do you trust the vaccine even though it wasn't tested for 10-15 years, and it was tested on humans?
A: Yes I do because the science behind it is solid. very often when we start a project we do our homework thoroughly so there is a high chance of success. With Covid the pressure is a lot to get it right the first time - there is no scope for mistakes and the learning curve by default had to be steep. A lot of brilliant minds and well-intentioned people were behind the vaccine. Also, remember that technology now allows to do a lot in a very short time. So it isn't like the old days where testing was much slower. Also, approvals take forever but in the case of the vaccine all hands were on board - we did not have just a couple of people at the FDA look at the application snail-pace but we had the technology scrutinized at multiple levels in parallel. Further, the mRNA technology used to make the vaccine has been in the pipeline since a couple of decades, scientists have been working on it for a long time but there was no immediate need for developing a new vaccine with this technology. Now the need is there and the technology was available - no reason not to use it.
Hope that reassures you about this vaccine. -Rashi Iyer
Q: How can you trust the vaccine if there was no critical trials on it and it was only made in a couple of months and most shots/vaccines are made 10-15 years after they start working on it, and how do you know your not going to get sick from taking the vaccine, because the flu shot for example, people got the flu shot and they still got the flu. There was a guy he got the vaccine and a couple weeks later he got covid and he died.
A: Sandra Begay: Here's the information I trust to find out details about the COVID vaccine:: https://www.cdc.gov/coronavirus/2019-ncov/vaccines/keythingstoknow.html?s_cid=10493:cdc%20covid%20vaccine:sem.ga:p:RG:GM:gen:PTN:FY21
Q: Do you often face failures in your work, if so what are some examples, and how did you and your team overcome them?
A: LOL the work is wrought with challenges and failures. But the failures teach us a lot more than the successes - we have to trouble-shoot endlessly and we learn a lot during that process. We often have heated discussions about the correct approach and we don't always agree. The buck often ends with me and I have to make the final decision. I do so after much deliberation with everyone on the team - right from the undergraduate student who does a lot of the testing work to the senior scientist with the expertise. Often what we believe in theory should happen does not work out experimentally - so input from the students and postdocs is critical in the decision making. For eg., it was my idea to use hollow fibers for the lung but my graduate student and postdoc who grew the cells in the fiber and then performed the testing could not get it to work. we kept at it for nearly 6 months while we tried other alternative approaches. Finally, I pulled the plug on it. We make small and big decisions everyday that impacts the outcome of our work. I have been very fortunate that we have a great working team with few egos and a lot of ideas. In the end we all have the same goal. Rashi Iyer
Q: Are there gonna be more help sessions for the rover?
Yes! absolutely. Let's say from 5:30-7:30 for the next two evenings. That will give you a break and you can go get some dinner. Also the mentors usually meet about 4:30 to discuss how the sessions went. I may need to send a separate google meet link - let me talk to the other mentors and see how we're going to arrange a room and I'll post that information here and also send it out to the email list. - Matt
Q: Could we code from our own personal computers or do we need to use the Pi Top?
You can use your own laptop, it is probably recommended. Here's how to download the Arduino IDE onto your laptop.
Go to: http://chamisaelementary.com/phys_camp/home.html
and you will see links for the Arduino IDE for Windows and Mac. The Windows link takes you to the App store and installs it. The Mac link puts a file in your Downloads directory and when you click on it, it should install. (I don't know Macs, but I think that is right).
Installing the QTRSensors library is exactly the same as on the Pi Top.
-Matt
Q: What is the best advice Rita Gonzales would give to incoming internship students when it comes to succeeding but also taking care of themselves?
Q: How do I secure my network?
Answer by Caren Shiozaki:
1. I always change default login passwords and user names (these are what manufacturers assign so devices are ready to go "out of the box")
2. When I get a new device, I remove the bloatware (software and apps that the manufacturer automatically installs, but not that useful).
3. Strengthen security on the wireless router: use strongest encryption protocol available; as in (1) change the router's default admin password;
change the default SSID; disable WPS (wi-fi protected setup)... which allows a wireless device to join a network w/o entering the network password;
keep firmware on my router up-to-date.
4. I keep operating system updates/patches up to date on my devices.
5. I backup my data regularly. I have a local separate device that is not networked, and I also have a backup in the cloud.
6. I run up-to-date anti virus software.
7. I use a VPN.
8. I use a password manager. This makes it easy to follow best practices of not reusing passwords, and having them sufficiently complex.
9. I do not use any digital assistants (like Alexa); I won't install RING, I won't use NEST. I have a basic alarm system; if I wanted one with visual capability,
I would configure my own using servers and webcams I control.
10. The only social media I am active on is LinkedIn, and even then I am very careful about what I post. I don't use FB, Twitter, etc. A lot of this stems
from the work I've had to do with the FBI and other government agencies, and because I am called to testify or be deposed in litigation.
Q: How do you think solar panels can benefit not only the planet but humans?
A: You could say that benefitting the planet is benefitting humans. 😊 But there are other benefits for reducing our use of carbon fuels such as reductions in rates of skin cancer and fewer strong storms that damage our homes. Solar isn’t the answer for every place on the planet, but it is really great alternative source of energy for places like New Mexico. The increasing number of alternative energy sources is really exciting for engineers because now we can match the energy source to the need and location instead of always trying to pipe in fossil fuels.M. Decroix
Q: How much solar energy is needed to light up and entire neighborhood?
A:The amount of energy needed is determined by the number of energy consuming “things” in the neighborhood. Here is a neat little info sheet for street lights. https://hypertextbook.com/facts/2004/MarinaAvetisyan.shtml
If we assume every block has 10 street lights, then the amount of energy used is 10 times the energy of one street light (let’s assume 300Watts) so 3000 Watts for every block. If your neighborhood is 10 blocks, then the street lights use 30,000 Watts. It adds up very quickly. The invention of large LED lights was a huge advancement because they require much less energy, ~100 Watts, so the same number of lights uses only 1/3 as much energy. BTW, this energy can be supplied by carbon fuels or solar or other forms of energy production. M. Decroix
Q:Ms. Anna, I was wondering if you could go over what will be included with the technology package when we choose it instead of the $300 stipend.
A: All information is on website
Q: How long does it take to destroy plutonium?
A: This question of the disposition of nuclear materials like Pu is one of the legacies that will pass to your generation, to your grandchildren, and to many generations beyond us.
Natural decay by radioactive transmutation (mutating from one chemical element to another) ranges from 14 years to 81 million years depending on which of the 6 or 7 Pu isotopes we are discussing, differing by the number of neutrons in their nuclei. I’m quoting half-lives which means that after one half-life the sample contains half as many “mother atoms” as you started with. For any practical sample, you never see the last mother atom decay.
As Hubert mentioned in discussions, Pu can be “burned up” by fission in a nuclear reactor or an accelerator within a couple of years. The required environment has copious, energetic neutrons “to split” the Pu nuclei into harmless chemical elements such as barium. These schemes can produce useful energy. The downsides include radioactivity in the fission products and the danger of losing control of the radioactive and fissile materials, which could then be used to proliferate “dirty (radioactive)” bombs or nuclear weapons.
Even if you wait for mother atoms to decay naturally or by forced fission, you are left with “daughter atoms”—isotopes of U or Am—that can be just as radioactive or chemically toxic as the mothers. Add another 5 years of processing and storage, here. The good news is that simple chemistry can be used to separate the mothers and daughters, which is generally much more cost effective than isotope separation methods by physical means.
Fusion transmutes elements, too, but I’m unaware of a fusion process for big nuclei like Pu.
Think of new ways to store or isolate nuclear material! Shoot it into the sun? Inject it into the Earth’s mantle at a subduction zone?
Keep in mind that radioactive materials can be safely handled and stored if respected. They are not a death ray or a plague. You are radioactive right now, and if you had a banana for breakfast your radioactivity probably doubled this morning (potassium). My father-in-law survived the bombing of Hiroshima and lived until just this year, aged 93 years, when Covid caught up with him. Alan Hurd
Q: How can you build a professional relationship with people when you are still in the introvert stage?
A: As one introvert to another, I can offer a few of tips that have worked for me.
In group settings, mentally prepare your remarks by jotting them down. A concise, well-ordered logic chain will bring notice to you that may nucleate further dialog.
Strike a diplomatic tone in all engagements. That will encourage people to contact you so that you do not have to take the initiative.
Be a joiner. Clubs, societies, etc. When people see that actually deliver, they will eventually see you as leadership material.-Alan Hurd
A. Absolutely! Remember the PBJ sandwich demonstration! Computers can do amazing things. Computers can learn new things on their own. But they still need guidance from humans. Perhaps in the future we will be better able to program using voice commands, rather than typing. But programming and coding are not going away. Joan
A: Computer programming teaches problem solving and breaking problems into logical steps. This skill is extremely useful even if you do not end up programming as part of your job. Also many jobs require technology and coding skills - is it truly a superpower. In my view the trick is to find something you are passionate and see how coding can help solving problems - many times coding just for the sake of coding is 'boring' but when solving real problems it drives you. - Thomas
A. Computers and coding are everywhere in our world, so coding is a very valuable skill to learn. And lhe younger you are when you learn, the easier it is. Toddlers can learn a new language (perhaps Russian) very easily and grow up bi-lingual. Learning a new language in High School takes years are effort (and your accent will never be as good as that toddler’s! Even Anna still has an accent). - Joan
A: Thomas - funny enough this happened much later. I have a PhD in Physics and in the olden days, any code we needed to analyze data we collected the PhD students and later postdoc wrote themselves. I developed an interest in scientific software writing code, being admired for my coding superpowers :) Outreach started with science outreach and it was not until my daughter was in Middle School and participated in a online computer science competition that I go into coding and technology education specifically for girls and founded Oak Ridge Computer Science Girls and that led to meeting all of you this afternoon and have a wonderful day :)
A. Joan - I took a programming course in High School as an elective, and really enjoyed it. It was a fun challenge to see if I could make the computer do what I wanted. It is like solving a puzzle or playing a game. Then I took another course, and then another…. and here I am! I never was able to answer the question “where do you want to be in ten years?”. I think life rarely is something that you can carefully plan out. You just follow your passion, keep your mind open to new experiences, and see what happens!
Q: Why are wavelengths so important?
A: The wavelength of light tells you how much energy a photon has. There’s a famous equation:
Energy = h times c/wavelength = hc/λ
where:
E is photon energy (Joules),
λ is the photon's wavelength (meters),
c is the speed of light in vacuum - 3x108 meters per second
h is the Planck constant - 6.62606957 × 10−34 (m2kgs−1)
Remember, the definition of Energy is ‘the ability to do work. The unit of energy is a ‘Joule’, which means the work done by a force of one ‘newton’ acting through a distance of one meter. One ‘newton’ is equal to the force that that gives 1 kilogram of material an acceleration of 1 meter/second/second.
All these unit definitions can be confusing, but just remember, light can do work, whether it is moving the vanes in a Crook’s radiometer, or heating up a solar panel to create electricity. The wavelength of light can ultimately tell us how much work that light can do.
Another reason wavelengths are so important is that they tell us what kind of light we are dealing with. For example, wavelengths from about 400 to 750 nanometers are in the range of visible light. X-rays have wavelengths from about 0.01 to 10 nanometers.
Q: Ms. Casperson, on one of your resume slides you had mentioned that it’s best to not use relatives and references on a resume, but would it be okay to list a relative that was a past employer? Or is it best to avoid listing relatives (past employer or not) all together?
A: It is best to avoid listing a relative as a reference because their reference will typically be viewed as biased in favor of the family member. That said, you should still list the employment in your resume and you can certainly discuss the position in your interview.
Q: Ms. Lebak, I’m not sure if you mentioned it during the lunch break, but are there any internship opportunities at N3B? If not are there any volunteer opportunities?
Q: If someone did have a non-professional resume, what is somethings that would still help them qualify for the opportunity? A: Lots of activities other than jobs can still give you relevant experience for a job posting. Just a few examples: internships, volunteering, participation in extracurricular school activities and clubs (like theater, Best Buddies, the GSA, etc.), participation in sports while still maintaining a high GPA, advanced coursework (AP, IB, etc.). Indeed.com has some suggestions for writing a resume with no experience here. - Sara M.
Q: With cybersecurity, how can we block scam callers on our phones?
A: There’s 2 ways. The best is to sign up for the National Do Not Call Registry https://www.donotcall.gov/ Also a lot of devices have the ability to manually block phone numbers.-Olivia Stella
Q:What are the requirements to become an ESA astronaut? What classes should someone take in college to become an astronaut?
A: The requirements are surprisingly simple! You need to:
be between 18 and 50 years of age
be a national of one of the ESA member states: Austria, Belgium, Czech Republic, Denmark, Estonia, Finland, France, Germany, Greece, Hungary, Ireland, Italy, Luxembourg, The Netherlands, Norway, Poland, Portugal, Romania, Spain, Sweden, Switzerland and the United Kingdom or 'partner states': Canada, Latvia, Slovenia, and Lithuania
have at least a Master's degree in a STEM subject or Medicine
have 3 years of professional experience in the field (e.g. 3 years of PhD research count)
meet the medical criteria of a pilot (you do not need to have a pilot license but need to be physically fit to become one)
As for classes in college, essentially anything that ultimately leads to a degree in STEM - chemistry, physics, engineering or mathematics. You can also become a doctor and then be sent to space to investigate *in situ* the response of human body to 0G environment!
Q: How does the milky way galaxy account for all of its planets and star without crashing and dying out?
Even though there are about 200 billion to a trillion stars in our Milky Way, the empty space between the stars in humongous. For example, from here to the next closest star is about 20 trillion miles. So space is vast and mostly empty. Here is an example: the Andromeda galaxy is about the same size and shape as our own galaxy. It is on its way here, and will collide with our own galaxy in a billion years or so. You would think that there would be a lot of collisions between stars. But because space is so vast, there will probably not be a single crash.
(Hubert)
Another thing to think about is angular momentum. As you will learn in physics classes both linear and angular momentum are conserved in the Universe. In case you were wondering whether stars e.g. move towards the galactic centre and collide because of gravity, then this is not the case. A star stays in its orbit at a distance away from the galactic centre owing to angular momentum and does not change its course unless its host galaxy crashes with another galaxy, causing the star to gravitationally interact with other objects.
Q: What makes light exactly? Like how are the electrons in light seen by us?
Light is made by charged particles like electrons. Electrons surround the nucleus of an atom in what we call ‘energy levels’, but they don’t always stay in one level. Sometimes the atom is disturbed and an electron can move to a more energetic level. The electron wants to get down to its original less energy level, and to do so it emits a photon of light which carries the extra energy away. That is where most light comes from.
There are no electrons in the light that we see every day, just photons. Electrons do move around outside an atom (like an electric current), but they are very easily stopped when they hit something, even something as light as air. So they really never get to your eye. Astronauts in space report flashes of light from electrons and other charged particles hitting their eyes coming from the vacuum of space where there is nothing to stop them. But we don’t see this at this surface of the earth.
The answer to the second part ( how is light seen by us): The light-sensitive layer in the back of your eye is called the retina. In the retina there are light-sensitive cells. In these cells are molecules that are sensitive to photons of particular range of color (or wavelength), or to just light of any color. When a photon of light falls on these molecules, the energy of the photon is absorbed by this molecule, and this causes a whole chain reaction of chemical and electrical activity, with the result that an electrical signal is fired off from the retinal cell towards the brain. In the center of the retina there are such cells that are sensitive to 3 different colors: mostly red, mostly green and mostly blue. Cells that are sensitive to light, but not to any particular color, are sprinkled over all of the retina.
Q: What if you apply for more then 1 job, do you need to have a different reference or the same person ?
I have used the same person as a reference for different job applications, as long as that person can speak to my qualifications for that particular job. Also, it is good to let them know each time you use them as a reference . - Sara M.
Q: Are we going to be doing mini project like every day?
A: On the first week, we are learning the concepts and doing small parts but next week every afternoon will be dedicated to working on the specific projects (MARS Robot or Ohana Hmestead)
Q: Do men feel threaten by women in science? Is it because the social norm at that time.
A: Remember that men and women are just human beings and we all have our own personalities and behaviors. Some are based in our genes and some come from our experiences. Some men will be threatened by new interactions and certainly there being more women in the workplace is new to some of them. But I have also found some women can be threatened as well. So gender stereotypes really don’t take you very far when you are on a team trying to do a job. Interactions/Relationships with people are one of the hardest parts of any profession/job. And I think, on average, more women are aware of those difficulties than most men. I try really hard to look at everyone I interact with as someone to learn about. I don’t always succeed, but I try. -Michele Decroix
Q: What does the alligator clips have that also helps light up the LED?
A: Alligator clips are made of metal, which conducts electricity, and they have a spring which makes it easy to clip onto other wires or electrical bits.
If you don't have wires with alligator clips, you have to strip the plastic insulation off some wire and wrap it around the LED legs, which is less convenient and more finicky.
Q: Do you believe Project Y would have as successful as it was without the women who contributed?
A: A: I think that the varied contributions of women were essential to making Project Y a success. The wartime laboratory at Los Alamos relied on women of science including medical staff, physicists, chemists, and mathematicians, but also needed the support of women to build a community for Project Y staff in what was then remote New Mexico. Women, like Dorothy McKibbin and Charlotte Serber, were in charge of important administrative offices in Santa Fe and in Los Alamos. Women in the military (the WACs) stepped in to take over previously male-only wartime roles, working as drivers and supply clerks. Local women from the Pueblos and nearby Hispanic villages worked in the technical areas and in laboratories, where their fine motor skills were essential in the assembly of small-scale experimental devices that led to the development of the Fat Man weapon. Women, like Frances Dunne and Norma Gross, made valuable contributions while working in hazardous field conditions. Without a doubt, women were key to the success of Project Y and to ending World War II, along with women working across the country at other Manhattan Project sites, such as Oak Ridge, TN; Hanford, WA; and New York’s Columbia University.-Ellen McGehee
A: Fun fact: There were no women engineers on Project Y. Engineering was not a common thing for women to do and still remains less common then women in science. Frances Dunne and Norma Gross did engineering work but they had science degrees. There was one woman, Miriam White Campbell, who joined the Women’s Army Corp (WACs) and worked as a draftsman for the project. She drew the final drawings to assemble the Little Boy weapon. Her work was engineering. Today we would call her a designer and she would probably have a mechanical engineering degree or a mechanical technologist credential. If she were working today, she would probably be doing a lot of 3d printing! There is an interview on You Tube where she talks about bringing her dog to live with her in Los Alamos. https://www.youtube.com/watch?v=R5Q0RP3x5pc -Michele
Q: How exactly does the copper tape work.
Materials that allow electricity to flow through it are called conductors. In this group are all metals, like copper, iron, aluminum etc. Also water, and all wet things, such as your body, potatoes, lemons etc conduct electricity.
Materials that do not allow electricity to pass are called insulators. In this class are plastic, rubber, cloth, paper, dry wood, air etc.
This is why for example extension cords are copper on the inside, and plastic on the outside. You can touch the cord and not get hurt, and why you don't want to touch the prongs of a plug while it is mostly plugged in.
Our copper tape is made of metal, which is a conductor, so electricity flows through it, while the paper we tape it down on does not. (Our particular copper tape has glue on it that is also made to conduct). So it is like using copper wires with a plastic insulation on it.
In the experiments we do in the camp, voltages are low enough that they are safe: you can touch the wires safely. The limit for this kind of safe work is 50 Volts. (the highest voltage we use is 9V)
(Hubert)
Q: Olivia stella: if you link multiple social media accounts, like linking spotify to instagram and instagram to apple, or something like that, does it increase the risk of you getting hacked?
A: Yes, because if they get your apple password, they have access to everything else that uses the apple password. And even if it’s just social media accounts, they might be able to use the information to access more sensitive accounts (shopping accounts, bank, etc.) Here’s a good article from 2014 (yes, it’s a persistent problem) - https://www.pcmag.com/news/reusing-passwords-across-social-media-sites-dont-do-that
Q: What makes the motor we made today with the copper wire,battery, magnets and paper clips spin ?
Remember that an electrical current running through a wire produces a magnetic field. In our motor we made, this effect stronger by winding the same wire around 7 or 8 times - this makes the magnetic field stronger. The next thing to remember is that magnets can push or pull on each other. In the little motor we made, the parts are arranged such that the magnet at the bottom pushes and pulls on the wire-coil-magnet (when we send a current through) to make it spin.
Q: I forgot what the 3 things you need to make electricity was called so my main question is what were the 3 components needed to make electricity?
If the question refers to the potato battery, this is what you need: first you need 2 different metals, plus some fluid in between, like the juice in the potato, or orange juice, or even salt water.
Q: Olivia Stella: discussing about cybersecurity " will having similar passwords on multiple platforms increase the chances of being hacked?" This seems like an important thing to know to safeguard ourselves. Other than the lessons though, I was wondering if we would have a lecturer talk to us about medicine as I currently want to study medicine and it would be really cool to learn/explore pathways for it.
A: Yes, because if they get your apple password, they have access to everything else that uses the apple password. And even if it’s just social media accounts, they might be able to use the information to access more sensitive accounts (shopping accounts, bank, etc.). Here’s a good article from 2014 (yes, it’s a persistent problem) - https://www.pcmag.com/news/reusing-passwords-across-social-media-sites-dont-do-that- Olivia Stella
Q: Why are women so underestimated in the science and engineering field?
A: Underestimated is an interesting word because it depends on your perspective. I think that the field of engineering has been so male for so long that it has just taken on the behaviors and thought processes of men. It is so normal now that no one really even thinks much about how it could be different. Right now the profession is only about 20% female at the entry level so we are having a tough time breaking through with our thought processes. Areas of engineering that are changing fastest are Bio-engineering and energy/environmental because they have a higher number of women in the fields. My area of Mechanical and Aerospace is still less than 15% female. I do feel underestimated sometimes but I am not sure it is a conscious thing most of the time. I believe I just solve problems differently and it seems abnormal to my colleagues. It is frustrating! It has been helpful for me to raise the consciousness of my male colleagues about how they solve a problem. I ask a lot of questions.😊 BTW, this is true in reverse as well. My mom was a nurse which is traditionally a female profession. When male nurses started being more “normal” there were a lot of the same discussions in that field. So it is really is about being the minority in a field and not always gender.-Michele Decroix
A: Because people are weak, and it has always been easier to settle for a stereotype (as in gender roles and racism) than making
up our own mind. Unfortunately, these views can trickle down the centuries if they are not being questioned. But don’t assume that you will have a bad experience in STEM! There are strong efforts all over the world to change this situation.-Marein Rahn
Q: Why do some materials work better with different colors of led lights?
A: Every material in a circuit has a property called impedance and the value for impedance represents how easy or hard it is for electricity to “flow” through the material. Copper has a pretty low impedance and conducts electricity well. Other conductors have higher impedance and conduct electricity poorly. So if you use a different material with a different impedance in the same circuit, then you get different voltage and current output and you may not be able to light the same LED. Electrical engineers must choose materials carefully to get the right performance from circuits without “wasting” a lot of the energy, because the electricity that is not conducted through a material is lost energy. The “lost” energy is stored in the material which causes it to heat up and the components of the circuit can get very hot. Many electrical components that handle high power (like transformers in the electrical grid) need to be cooled, usually with oil. There is a lot of research happening in materials to develop broadly useable superconductor materials that can handle high power with very little loss in heat. This is a tough problem because the materials also need to be mechanically strong to withstand weather and tension between the poles and other design constraints. But if we can develop the right materials, then we can reduce the losses in the national electrical grid. This will allow us to move electricity around the nation further and faster without wasting energy.
Q: How do you get to be so determined about what you want to do so early?
A: In my case, I found something I was interested in at around age 14 (learning languages) and just kept looking for ways to keep doing that, eventually ending up with a PhD in Spanish linguistics. I never stopped liking it and still find it fascinating. However, it is not common to find what you want to major in and work on professionally when you are 14. If you aren't sure about that, there's no reason to feel bad or like you're falling behind. Also, even if you find what you want to major in and work on that early, it can still change later on (like it did for me). It is normal to have several different careers over the course of your life. - Sara Mason
A: I was not determined about what I wanted to do when I was your age. For some reason I wanted to be different than my sister. She liked science but was more interested in the medicine/biology side. I liked physics because I had to think through the problem. It wasn’t just memorizing things. Also, I could make things happen in the real world, like throwing a ball or shooting a projectile, and see the physical laws in action (gravity). My sister and I took physics class together and I was better at then she was. That was very frustrating for her. A little competition is healthy I think. 😊 My dad was a skilled tradesman in construction and worked with a lot of engineers. He said, “You should be an engineer”. I said ok but I did not know what it was. I just knew it paid well. I almost dropped out my sophomore year in college because it was really hard. But I stuck it out and the next semester I took a class in thermodynamics and found my passion for studying fluids. From there I went on to work on designing airplanes and doing research in combustion. Life opens lots of doors. The trick is sticking around so you can walk through them when you are ready.-Michele Decroix
A: I think the biggest challenge nowadays is that there is so much stuff that catches our attention at the same time, so it gets very difficult to focus on one thing. The problem is that to develop a passion for something, you really have to get into it first. So my advice would be just to select one thing (really, anything. On this page alone I see several questions that could ignite and support a whole career) that you feel you care about, and start digging into it. Read a book, sign up for a course, set yourself some goal, start a project with friends … . What’s important is that you keep digging for a bit, even if it takes some effort. The good news is that most topics get more interesting, the deeper you dig. And of course you can adjust the direction of your dig (just don’t jump to the next hole at the first obstacle!). What you have to look for is your "positive feedback loop”: Then the more you learn, the more fun it will be and the more successful you will be, which will motivate you more and so on. It just has to come from yourself (teachers and professors can only nudge you in a direction, but the initiative must come from yourself).- Marein Rahn
Q: How does electricity produce from metals and a potato?
Q: What is the weakest build of an atom? Is it graphite?
Q: How do crystals begin to form, and how does it keep its solid state?
Q:What happens if a crystals was to become liquid? Or has that never happened?
Q: What academic advice do you have for someone who wants to pursue a career in software architecture?
A: The field of Computer Science is incredibly broad, including circuit design, programming languages, Artificial Intelligence, Algorithms, Networking, etc. You will probably want to get a degree in Software Engineering, rather than Computer Science. But you don’t have to decide right away. During your first two years in college (freshman and sophomore) you should take broad range of courses to see which ones really are interesting for you. You cannot take too many Math courses! Mathematics, and that kind of logical thinking, suffuses every aspect of computing and also science!- Joan Lucas
Q:What advice would you give your younger self if you could time travel?
A: My advice for someone going to college would be to ask any question that you have, right away (if you leave them for later, they will just pile up). Don’t worry about what others think and be confident that every question you have is justified. -Marein Rahn
Q: What do zinc and cooper have in common to light up an LED light?
A: What zinc and copper have in common is that they are both metals, and metals conduct electricity very well. Because they are different metals, they react differently with the fluid in the potato, and this gives rise to a voltage difference between the two. See the video on batteries in Pascale's presentation on Wednesday:
https://youtu.be/9OVtk6G2TnQ -Hubert
Q: I wonder what is something Marie always followed and told herself when choosing to keep pushing forward not only for herself, children but also her work and studies to benefit even after she passed?
A: Marein: It’s a difficult question, since Marie wasn’t the kind of person who wanted to share too much of her personal life with the public. Maybe her drive was so strong because she was able two align two goals in her life: On the one hand, her work gave her an immense personal satisfaction, and on the other hand she grew up with the humanitarian conviction that all of us, individually, have a duty to improve the world. I think few people get to combine their own goals and life philosophy in this way. Either because they never get the chance, or because their personal desires are not compatible with a fulfilling cause (e.g. if your only goal is to get rich, you won’t have much to keep you going if you fail). Also, I think most of us often deceive ourselves into evading challenges, mostly for irrational reasons. E.g. sometimes if you are “scared" of an exam, you don’t want to study for it. I think Marie’s had such a logical and scientific attitude that she just didn’t accept obstacles as easily.
Another amazing story I didn’t get to mention:
Marie really didn’t enjoy the public attention she received in her later years (after the Nobel prizes), not even that of the early feminists of the time. But the editor of the US women’s magazine The Delineator, Missy Meloney, was so insistent that she started a campaign to fulfil Marie’s greatest wish. In the 20s, radium was already industrially produced, but Marie couldn’t afford any for her research (one gram cost 100.000 $, which would be more than 1.3 m. $ today). Mrs. Meloney managed to raise this money from her readers. So Marie agreed to write the “The Story of my Life” for the delineator, for "the encouragement to the women of America”. Together with Irene and Eve, Marie then travelled to Washington D.C. and was handed one gram of radium in a lead-lined mahogany box from president W. G. Harding. I have uploaded the relevant issues of the Delineator here: https://drive.google.com/open?id=1pgNCUT8hZSRzyuvL2samX9_YjgGpzFMm.
Q: Ask Frances Chadwick: What is the most challenging part of your job?
A: the span. Trying to get a communication just right for 13,000 people is hard. And you can’t please everyone. You’re trying to take into account all the stakeholders (often including external as well), all the reactions, often with a deadline or some other pressure. And working with the federal government – well, it’s very bureaucratic, so that can sometimes add frustrations.
QI Was also wondering about the statistics of females in medicine in relation to the data shown in both Anna'a brief presentation and Irene Qualter's data.
Q:Could there ever be a technological development that would suppress radiation?
A: Good question! We can only really “suppress” radioactivity by shielding it. Atoms are radioactive when their cores (nuclei) are too unstable to hold together. The cores consists of neutrons and protons, which are held together by nuclear forces. These work quite differently from other forces that you are familiar with, like graviational or magnetic ones. It’s very difficult to manipulate the world at that scale, and we will not be able to change the “half life” (= average stability) of an radioactive element. However, in science you can never say never! If you were able to "design your own nucleus” (e.g. by adding neutrons), you might indeed make an unstable atom stable. Indeed, theorists have predicted an “Island of Stability” in the (largely empty) map of possible nuclei, see https://en.wikipedia.org/wiki/Island_of_stability . It’s not clear if we will ever get there though!- Marein Rahn
Questions to Frances Chadwick:
Q: What are so things over here at New Mexico that are different from were you're from?”
A: The food! The people! And the weather! Seriously, this is a great place to live - I can imagine if you grew up here, you would take it for granted, but NM is unique, and you should always remember how lucky you are. Another big difference is the open space/lack of population. The UK is a very crowded country - traffic everywhere, houses everywhere - its hard to get away. There are things I miss too of course - family, and the sense of history.
Q: “What was the hardest thing to adapt to?”
A: I think when you are a first generation immigrant, you always feel a bit “torn” - I love NM and working/living here, but I do also feel some nostalgia for places I knew as a child. But having said that, I have always felt very welcome here - not treated as an outsider, and I very much appreciate that.
Q: "Do you think it is important for young women to be involved in the sciences from early on?”
A: I dont' know. What I do know is that at some point - Sometimes at a young age, other times later on, I think it helps to find something that genuinely interests you. Often it is a teacher who can create this spark of interest, or a parent, or it can be something you discover on your own. I have three kids - one decided what she wanted to do when she was a junior in high school, another doesn't know what he wants to do when he grows up but is studying a subject he is deeply passionate about and has been since he was about 10, and the third has absolutely no idea and still thinks all school is boring!! So i hold out hope that in time, the third will find something that does interest her because it makes life more enjoyable, for one thing!
Q: “What was the easiest thing to adapt to?”
A: You can connect with people, no matter where they are from. I think humans are good at making those connections, if they try.
Cassini mission with video links: https://solarsystem.nasa.gov/missions/cassini/mission/about-the-mission/
Elisa Quintana (NASA): https://solarsystem.nasa.gov/people/313/elisa-quintana/
Margaret Hamilton: https://en.wikipedia.org/wiki/Margaret_Hamilton_(software_engineer)
Why is nitrogen the dominant gas in our atmosphere? What happened to the other gases from the early atmosphere? http://scienceline.ucsb.edu/getkey.php?key=143
Why do some planets have rings? Why do none of the inner planets have any? http://scienceline.ucsb.edu/getkey.php?key=158
Can you freeze air? http://scienceline.ucsb.edu/getkey.php?key=219
Lots of cool explanations about all sorts of things: https://www.scienceline.ucsb.edu/search.php
Hubert Van Hecke- Mr Science website: http://users.hubwest.com/hubert/mrscience/science1.html
Women Nobel Prize: https://en.wikipedia.org/wiki/List_of_female_Nobel_laureates
Women in STEM: https://en.wikipedia.org/wiki/Women_in_STEM_fields
-Question: Although Global warming is happening, why are some areas in the world getting colder?
“When the vortex at the north pole becomes extremely weak, the high pressure zones found in the middle latitudes of Earth (where the westerlies are) can push towards the poles, displacing the cold air. This causes the polar vortex to move farther south. In addition, the jet stream buckles, and deviates towards more populous, southern latitudes. As the cold, dry air from the poles comes in contact with the warm, moist air of the mid-latitudes, you get a dramatic weather change that we conventionally refer to as a cold snap.
“First, it's important to understand the difference between climate and weather. Climate is defined as the average weather patterns in a region over a long period of time.”
“Scientists believe Earth will experience more extreme, disastrous weather as the effects of climate change play out.”
“As more Arctic air flows into southern regions, North America can expect to see harsher winters. That was the conclusion of a study published in 2017 in the journal Nature Geoscience. It found a link between warmer Arctic temperatures and colder North American winters. A separate study published in March of last year in the journal Nature Communications found the same link but predicted the northeastern portion of the U.S. would be particularly hard hit.”
https://www.nature.com/articles/ngeo2986#f4
“Warming temperatures in the Northern Hemisphere have enhanced terrestrial productivity. Despite the warming trend, North America has experienced more frequent and more intense cold weather events during winters and springs. These events have been linked to anomalous Arctic warming since 1990, and may affect terrestrial processes. Here we analyse multiple observation data sets and numerical model simulations to evaluate links between Arctic temperatures and primary productivity in North America. We find that positive springtime temperature anomalies in the Arctic have led to negative anomalies in gross primary productivity over most of North America during the last three decades, which amount to a net productivity decline of 0.31 PgC yr−1 across the continent. This decline is mainly explained by two factors: severe cold conditions in northern North America and lower precipitation in the South Central United States. In addition, United States crop-yield data reveal that during years experiencing anomalous warming in the Arctic, yields declined by approximately 1 to 4% on average, with individual states experiencing declines of up to 20%. We conclude that the strengthening of Arctic warming anomalies in the past decades has remotely reduced productivity over North America”
https://science.sciencemag.org/content/343/6172/729
“a rise in global mean temperature will almost certainly lead to an increase in the incidence of record high temperatures. Global warming also leads to increases in atmospheric water vapor, which increases the likelihood of heavier rainfall events that may cause flooding. Rising temperatures over land lead to increased evaporation, which renders crops more susceptible to drought. As the atmosphere and oceans warm, sea water expands and glaciers and ice sheets melt. In response, global sea-level rises, increasing the threat of coastal inundation during storms.”
https://agupubs.onlinelibrary.wiley.com/doi/full/10.1029/2012GL051000
“two hypothesized mechanisms by which Arctic amplification – enhanced Arctic warming relative to that in mid‐latitudes – may cause more persistent weather patterns in mid‐latitudes that can lead to extreme weather. One effect is a reduced poleward gradient in 1000‐500 hPa thicknesses, which weakens the zonal upper‐level flow. According to Rossby wave theory, a weaker flow slows the eastward wave progression and tends to follow a higher amplitude trajectory, resulting in slower moving circulation systems. More prolonged weather conditions enhance the probability for extreme weather due to drought, flooding, cold spells, and heat waves. The second effect is a northward elongation of ridge peaks in 500 hPa waves, which amplifies the flow trajectory and further exacerbates the increased probability of slow‐moving weather patterns. While Arctic amplification during autumn and winter is largely driven by sea‐ice loss and the subsequent transfer of additional energy from the ocean into the high‐latitude atmosphere, the increasing tendency for high‐amplitude patterns in summer is consistent with enhanced warming over high‐latitude land caused by earlier snow melt and drying of the soil.”
“We find that a warmer Arctic atmosphere contributes to dilated geopotential heights locally accompanied by lower heights across mid-latitudes and an equatorward-shifted jet stream. This allows Arctic airmasses to expand farther south while increasing the likelihood of heavy snowfalls. We find a distinction between early winter, when Arctic warming tends to affect only the lower troposphere, and mid-winter to late-winter when polar cap geopotential height anomalies is evident throughout the troposphere and lower stratosphere. When the entire Arctic atmospheric column is affected, the probability of severe winter weather in mid-latitudes increases, as observed during the era of AA in late winter. Colder Arctic conditions elicit the opposite response. These findings suggest that the continuation of rapid Arctic warming and melting contribute to more frequent episodes of severe winter across the Northern Hemisphere mid-latitude continents.”
Dan Reisenfeld answered some of your questions:
1) Q: do tsunamis and earthquakes happen in space?” I am taking it to mean do they happen on other planets or moons. Of the planets and moons in our solar system, Earth is the only one with tsunamis, at least in recent geologic times. Other planets have been measured to have small seismic activity, in particular Mars definitely has “Marsquakes”, although much smaller than on Earth. In fact there is a mission on Mars right now called InSight, whose function is to look for Marsquakes. A moon of Jupiter, Io, has active volcanoes (the only other place in the solar system to have them besides Earth), and so likely there are quakes on Io, too. Venus could also have quakes, but we’ve never had instruments on Venus to measure them. It is about the same size as the Earth and could very well have platectonics, like on Earth, which would give rise to quakes.
2)Q: What gives the planets their colors? A: The reason depends on the planet.
Mercury and the Earth’s Moon (I know, not a planet, but kinda prominent in our sky) are grayish because they have no atmosphere and have surfaces covered with grayish rock, sand and dust made up mostly of silica and calcium which are whitish/grey in color.
Venus is yellow because its atmosphere has lots of sulfur in it (which is yellow).
The Earth is blue-green, because well, oceans and plants.
Mars is “red” (really orange) because the rocks on its surface have a lot of iron oxide (literally rust) in them. If you look at the Sahara desert from space, it too looks reddish because of all the iron in the Earth’s crust. So if the Earth were bare of water and plants, it would look a lot like Mars.
The outer planets (Jupiter, Saturn, Uranus, Neptune) are all gas giants with atmospheres made up mostly of hydrogen. The colors, though, come from the trace particles in their atmospheres. There are lots of ammonia, phosphorous and methane crystals in their atmosphere that reflect different colors depending on their concentrations and temperatures. Since the outer planets are at different distances from the Sun, the colors are different for the different planets because their temperatures are so different.
How do planets get those colors? http://scienceline.ucsb.edu/getkey.php?key=1088
Here are a couple of videos that review the topics we worked on today:
Electricty and Magnetism
https://www.youtube.com/watch?v=hFAOXdXZ5TM
https://www.youtube.com/watch?v=ru032Mfsfig
How does electricity work? http://scienceline.ucsb.edu/getkey.php?key=255
How did electricity start: http://scienceline.ucsb.edu/getkey.php?key=400
How does the atomic structure influence the PH?
https://study.com/academy/lesson/how-acid-base-structure-affect-ph-pk-values.html
“Acids exist in an equilibrium with their conjugate base. The strength of the acid (pKa) depends on the stability of the base. When the proton leaves the acid, it leaves behind its electrons. Those are super negative and there is a big negative charge on the conjugate base.
You know that if there is a concentrated negative charge, the base is not very stable. However, if the charge can be spread out, then the base is more stable, which means we have a stronger acid.“
“the stronger acid has a more stable base. One thing that influences base stability is the size of the ion. A larger ion can accommodate a negative charge better. Imagine that the charge has more 'room' to spread out.
Luckily, we can use periodic trends to predict the size of the ion. This means we can predict the more stable base and therefore, the stronger acid. Ion size increases as we go from top to bottom of a column on the periodic table. (Ion size also increases from right to left, but that does not influence base stability due to electronegativity, which we'll talk about in a moment). “
Dana Dattelbaum
https://www.lamonitor.com/content/lab-dana-dattelbaum
Electrical components
https://www.youtube.com/watch?v=6Maq5IyHSuc
Radiation
https://www.nasa.gov/sites/default/files/atoms/files/sf_radiation_stu_bob.pdf
https://www.energy.gov/sites/prod/files/2018/01/f46/doe-ionizing-radiation-dose-ranges-jan-2018.pdf
LANL Visit Questions:
Vivien, Scott
One of the girls asked the following question and I was wondering if you would like to address it: "understanding how a generator that big powers a magnet, like what's the different things it does in order to power"
The generator is very similar to the little generators we played with during the summer camp. It has three magnets that rotate inside a coil of wire. The moving magnets creates electricity in a coil of wire, which in turn powers the magnet.
We need the generator because the power grid can’t deliver as much energy as we need quickly enough. So we gather energy off the power grid slowly for an hour and store it, and then deliver it to the magnet in a second.
We gather that energy by using a motor to slowly spin up the generator. Energy is stored in the rotation of its massive shaft. Then we turn around and deliver that energy in the form of electricity to the magnets in just a second.
Our magnets use only a little bit of energy (the biggest magnets use as much as my house does in a day for each 1 second pulse from 0 to 100 Tesla and back to 0). But the power the magnets use (how fast energy is delivered) is as much as an entire city.
Have you ever explored LANL website? https://www.lanl.gov/
In this page you can find some information about three of the LANL facilities we will visit on 6/19
https://www.lanl.gov/science-innovation/science-facilities/index.php?source=globalheadernav
LANSCE: https://lansce.lanl.gov/
NHMFL: https://nationalmaglab.org/user-facilities/pulsed-field-facility
pRad: https://lansce.lanl.gov/facilities/pRad/index.php
Extreme Fluids Lab: https://www.lanl.gov/projects/shocktube/
We will also be visiting the New Mexico Consortium Biolab!