You said "primary elements" and "building blocks of matter". Did you say "it's an ancient idea"? And you said "quark" - how is it different from an atom? - Learn about modern view on structure of matter and our Universe.
What do you mean you can quantify nature? Learn what it means to measure. How to assign a number to a measurement. Why does one have to specify a unit for a measured number?
Why are there so many units? Did you say that scientists need conventions? - Learn about fundamental units and Decimal System of Units.
How exact is a measured number? Learn about significant figures. Did you say "accuracy and precision are different things"? How so? - Learn about systematic and random errors.
What does it take to predict the future? Who/What is moving? - Learn about relativity.
Can Achilles catch the Tortoise? Did you say "Zeno's curse"? - Learn how to measure speed. What is the difference between average and instantaneous? Learn the speed formula and how to apply it to solving a variety of problems.
Are you saying that space and time are related? Did you say "we can only see the past"? How so? - Learn about ultimate speed.
What's all about directions? - Learn how to distinguish between Scalars and Vectors.
Did you say "Velocity"? How is it different from speed? -
Learn how Galileo was timing motion. Speeding up or slowing down? What do you mean by saying "deceleration is acceleration too"? Did you say "an object that keeps its speed can be accelerating"? Is that confusing? - Learn about vectors that change only their direction.
Did you say that graphs can be helpful to describe and understand motion? - Learn about how to interpret motion graphs.
You said "Gravity". Why does the Earth pull all objects toward itself? Did you say that the question should be not "Why?" but "How?"? How come heavy and light objects fall at the same rate? - never seen that! - Learn about Galileo's Law of Free Fall.
Are you saying that the formulas for motion with constant acceleration can help to solve problems with falling objects? And for things that are thrown up into the air as well? - Learn kinematics of vertical projectiles.
Oh, two dimensions look more complicated!
DId you say "give a separate treatment to forward motion and to the motion in upward/downward direction"? Are you sure it is going to be manageable? - Learn about how to deal with Vectors.
Review geometry? ... Alas, and trigonometry too!... Did you say "it is going to be fun"? Really?
Learn how to use i-j-k - notation to describe vectors.
Oh, those artillery problems! Learn the Galieo's trick to segregate motion into components. Feel its power!
Are you saying that flight time does not depend on whether one drops a baseball from a roof or shoots it from that roof horizontally? How can that be? - Learn about the relative nature of velocity.
What makes things accelerate? Learn about the concept of Force.
Did you say "pull or push is not what keeps things moving"? How so? - Learn the concept of Inertia.
Why do you say "Law"? Has someone declared it? Learn about Laws of Nature. Did you say "acceleration is caused by force but depends on mass"? - Learn about Newton's Second Law.
You said "mass and weight are not the same thing". How so? Did you say "apparent weight"?
You said "this force is not a contact force but a field force". What does that mean? Are you saying that gravity is a field? - Learn about field forces.
You said "the cart pulls the horse", and you said "an apple pulls the Earth"- that sounds ridiculous, how can that be? Did you say that "action equals reaction but acts in opposite direction"? Why can't they cancel each other? - Learn about forces always coming in pairs.
Did you say Interaction? Learn how to distinguish action-reaction forces.
You said "friction helps to create motion" and then you said "it opposes motion". Isn't that contradicting? - Learn about static and kinetic friction.
Did you say "in reality one has to account for friction"? Ah, "just plug force of friction into the Newton's Second Law"! - Learn how to solve problems with friction.
Did you say that Newton's Second Law is a differential equation? Oh, you mentioned we had to account for resistance of the air. What do you mean by terminal velocity? Oh, you want a machine to solve the problem with air resistance? - Learn how to model complex problems on computer using Euler's Method.
Did you say "the Moon is accelerating"? Are you saying that it is falling on the Earth? How so? - Learn about tangential and normal components of acceleration.
What do you mean by saying "center seeking force is a result of other forces"? Learn about centripetal force. Did you say that static friction can cause a centripetal acceleration? How so?
Ah, that's a cool derivation of the formula for centripetal acceleration! There is no such in the Textbook!
Did you say "we just have to have enough speed to keep up on the loop on the fireball"? - Learn how to apply the concept of centripetal acceleration to solve problems.
Did you say ancients were obsessed with the idea of celestial bodies moving in a circular path? Oh, the history of solving the problem of planets' motion! - do we really need that? - Learn about Kepler's laws of planetary motion. Did you say "they appear to be mystical"?
Ah, Isaac Newton was the guy who solved the mystery! But don't you think his gravity is totally mysterious too? - Learn about Newton's Law of Universal Gravitation.
Did you say that the Moon was an inspiration for Newton? Oh, seems like his Law describes motion of artificial satellites pretty well, huh? Yeah, GPS is a really cool thing! - Learn about how to model satellites motion using computer simulation.
Did you say "mass is a gravitational charge"? Did you say "gravity can bend light"? Einstein's gravitation and black holes? And gravitational waves? Wow! - Learn about gravity as the curvature of the fabric of spacetime.
Did you say "scalar product of vectors"? How to get scalar from two vectors? Oh, you can get a vector from two vectors too! And it points in a totally different direction! That's cool! - Learn about dot product and cross product of vectors.
Did you say "work for each force"? What about if forces act together? Learn about net work. No, not "network" - Net Work!
Why are there so many types of energy? It sounds confusing! Learn about gravitational, elastic and kinetic energies. Did you say potential?
Did you say "work is a transfer of energy"? And energy is like nature's money? How so? Don't we always strive to create energy for free? - Learn about the Law of Energy Conservation.
You said "use energy conservation whenever possible when solving problems"? Are you saying "the energy approach is the easiest"? Did you say "because it is a scalar quantity"? Well, it does not look intuitive enough in the beginning ! Did you say "do not focus on details of the motion - focus on initial and final states"? Are you saying "it'll pay off"? - Learn how to apply energy approach to solving problems.
Oh, you want us to think about systems. You confused me with this concept of a conservative force! Did you say "recoverable energy"? - Learn about conservative and non-conservative forces.
Do you want us to think about engines as machines producing work? Distinguish between power and efficiency.
Did you say that oscillations have something to do with motion in a circle? Ah, both are periodic! More than that? Learn about oscillatory motion and how it is widespread in nature.
Are you saying that many vibrating systems such a pendulum and mass attached to a spring are mathematically described by the same equations? And bonds that hold atoms and molecules can be modeled with this equation too? Learn about simple harmonic motion.
Ah, we don't have to solve the differential equation - you'll give us the solution and we can just test if it satisfies the equation by plugging it in. That's good! Did you say "amplitude" and "initial phase"? Did you say "angular frequency " ... and "harmonics"? Oh, Lord! - Learn about harmonic functions and how to use them to describe vibrating systems.
Did you say "response to periodic force"? A "resonant frequency"? Oh, it can be dangerous? and useful too? - Learn about the resonance phenomenon and its application in mechanical and electrical systems.
Did you say "traveled disturbance in a media"? - that's disturbing! Ah, you are going to clarify! Did you say "transverse"? and then "longitudinal"? Did you say "speed of the wave depends on the properties of the media"? How so? - Learn the concept of wave motion.
Oh, waves and vibrations are related! Did you say "in-phase" and "out of phase"? Did you say "wavelength is a space period"? Hmm ... there is this golden rule, huh? Are you saying that it works for all types of waves? Did you say that sound is a wave? And light is a wave too? - Learn about different type of waves and common characteristics of waves.
Did you say "interference"? Is it a collision? Not really? Did you say "standing wave"? - what, the wave doesn't move? - Learn about superposition of waves and noise-cancellation technology.
Did you say "wave equation"? Oh, harmonics again?! You said "wave number" - what is it? - Learn how to describe waves mathematically.
Do you want us to review the Newton's Laws? Ah, to look at them from a different perspective! Did you say "do not focus on details but look at the initial state and then analyze the transformed one"? Similar to energy approach, huh? - Learn the concept of momentum and the law of its conservation.
Did you say "system" again? Apparently, it seems like problems that look complex can be easily solved using the new approach! Did you say "it is a cool and powerful method"? - Learn how to use the law of momentum conservation to solve variety of problems.
Did you say "center of mass"? How come it can be located in the space not occupied by the object? Does that make sense? And you said "center of gravity", - what's the difference? - Learn about torque, moment of inertia and rotational equilibrium.
You said "angular momentum". Oh, another conservation law?! Are you saying that it has to do with the Kepler's Second Law of planetary motion? Did you ask "what keeps the planet Earth rotating"? Wow, this gyroscope is a cool thing! ! - Learn about the Law of Conservation of Angular Momentum.
Did you say "a hydro-static paradox"? To burst a huge barrel with one glass of water? Unbelievable! - Learn about pressure in fluids and its dependence on height.
Did you say "buoyancy"? Of course, I know it. What do you mean "what's causing it"? Um-m ... Well, it has something to do with density, no? .... actually, not sure. - Learn about buoyancy and Archimedes Principle.
What do you mean by saying "we live on a bottom of an ocean"? Oh, you mean an air ocean! Did you say "balloons cannot fly on the Moon"? - Learn about atmospheric pressure.
How to measure fluid flow. Did you say "flow rate"? - Learn about the continuity equation in fluids dynamics.
Did you say "Bernoulli's Principle"? It does not seem obvious! - Learn about how atomizers work, curveballs and what makes a lift force for an aircraft. Did you say "wind tunnel" and "modelling in aerodynamics"?
Did you say "gas thermometer"? Why do you call it "absolute temperature"? - am I free to chose any temperature scale? What do you mean by "absolute zero"? - Learn about the notion of temperature, different temperature scales and what makes the Kelvin scale particular.
Did you say "ideal gas"? What is ideal about it? - Learn the ideal gas law.
This mole thing is so confusing! Are you saying that it is "a chemistry thing"? Did you say "amount of substance taken in grams which is numerically equal to atomic or molecular mass"? Did you say "all moles of different substances have the same number of molecules"? How so? Did you say Avogadro's Number"? - Learn about macro-scoping and micro-scoping measures and their relationships.
Are you saying that these gas laws can be derived from the Newtonian mechanics? Did you say "statistically"? Oh, the temperature represents kinetic energy of molecules! And we can use it to get information about how fast molecules move - that's cool! What is rms? Did you say "internal energy"?
Learn the kinetic theory of ideal gas, interpretation of temperature and Boltzmann's equation.
Did you say "heat and temperature are related but are different quantities"? You said "quantity of heat" - how do you calculate it? Ah, calorie - sounds familiar! Did you say "specific heat"? and then you said "latent heat" - what does it mean? Did you say "phase change"? - Learn how to calculate amount of heat, how to use calorimetry method and how to account for heat during phase changes.
Did you say "convection"? and then "radiation"? Did you mention "insulation R-value"? - Learn about different way of heat transfer and their practical applications.
Did you say "mechanical equivalent of heat"? Oh, calories can be converted to Joules! Can you prove it? Fair enough! - Learn about heat being form of energy transfer. Did you say "work on on micro-level"?
Um-a-oh, again three Laws? - seems like you're obsessed with the number 3, are you? Did you say "state", and then "process" and how to represent them on thermodynamic diagrams? Are you saying that we can create a thermodynamic cycle and get some work out? Oh, a heat engine! Is it going to be efficient? Did you say Carnot cycle and efficiency limit? - Learn thermodynamics and explore its laws. Learn about heat engines and their efficiency.
Did you say "the direction of heat flow"? What do you mean by saying "it is asymmetrical"? What do you mean by "natural process"? - Learn more about the Second Law of Thermodynamics.
You mentioned "reversible and irreversible processes" - what is the difference? Do you want us to use molecular view? Did you say "statistical thermodynamics"? Did you say "there is natural tendency to disorder"? - Learn about thermodynamic and statistical (logical) entropy and another interpretation of the Second Law.