Science - Junior

BIO LAB (384)

Grades 11 - 12: Level 2

(Semester) 0.75 credits

This course is intended to help students to pass the MCAS Biology exam. The course focuses not only on reviewing the topics covered, but also on the style of questions and test taking strategies.

PHYSICS LAB (340)

Grades 11 - 12: Level 2

(Semester) 0.75 credits

Prerequisites: Completion of Introduction to Physics (Level 2 or Honors)  

In this course, students further develop skills to pass the Introduction to Physics MCAS exam. The course focuses on reviewing the topics covered in Introduction to Physics, but also on the question types and test taking strategies.

PHYSICAL SYSTEMS  (298/299)

Grades 10-12: Level 2 and Honors

(sem) .75 credits

Prerequisites: 

Successful completion or enrollment in Algebra 2/Trig 

Honors Prerequisites: 

B- or higher in Geometry  

Physics is the study of matter and energy and their interrelationship. This laboratory science course is intended for those students with an interest in the physical sciences and/or those students who intend to study math or science related topics in college. Students should have good math skills and enjoy using mathematics as a tool. Adequate completion of homework is essential for success in this course. 

Topics will include forces and linear motion, work and energy, momentum, electromagnetic phenomena including circuits and motors, light, and sound. 

Skills introduced and developed in earlier science courses will be further developed including problem solving and critical thinking skills. Computers and other current technologies will be used as tools for the gathering, analyzing and reporting of data. 

A variety of teaching methods will be employed during this course, including the use of student-based inquiry projects, interactive lecture/demonstration sessions, audio-visual presentations, laboratory activities and discussions. 

Honors Option: This course differs from the Introduction to Physics course as this course covers additional topics within the units of study and topics in greater depth and at a faster pace. Students also are expected to work at a higher level of independence and to engage in more individual research and study of course topics. The honors course will have a greater emphasis on the use of mathematics.

AP BIOLOGY (341)

Grades 11-12: Advanced Placement

(Year) 1.5 credits

A successful AP biology student should have:  

1. Completed Honors Chemistry with a B or higher

2. Completed Algebra 2/Trig Honors with a B or higher  

3. Successful completion or enrollment in Pre-Calculus  and/or

4. Teacher recommendation

The Advanced Placement Biology Program is a college level laboratory science course offered in high school. Students electing this course should be highly motivated and should exhibit a strong interest in life sciences. 

Course content will be predicated upon the syllabus of the Advanced Placement Program and will include many levels of organization such as molecular, cellular, population, organisms and others. Concepts related to each level of organization and to the entire syllabus will be explored, analyzed and discussed. 

Advanced placement students are expected to do considerable outside reading on topics that cannot be covered in class. Laboratory work is extensive and is correlated to the material being discussed. A lab notebook must be maintained throughout the year and reports must be written for most experiments. In addition to the development of laboratory procedures and techniques, cognitive skill development focuses upon critical thinking. Advanced placement students will also perform a considerable amount of mathematical analysis and should have strong mathematical skills. Advanced placement students are expected to have initiative, be responsible, and strive for excellence. 

Instructional methods include lectures, discussions, and student presentations, picture walks, reading guides, mini posters, drawings and a variety of teacher-directed and student-designed laboratory activities. Students are encouraged to take the Advanced Placement Examination, and those who do so will be exempted from the course final examination.

AP CHEMISTRY (357)

Grades 11-12: Advanced Placement

(Year) 1.50 credits

A successful AP Chemistry student should have:    

1. Completed Honors Chemistry with a B or higher

2. Completed Algebra 2/Trig Honors with a B or higher and/or

3. Teacher recommendation

. 

Advanced Placement Chemistry is a college level course offered in high school. Students electing this laboratory science course should be highly motivated, have a strong interest in science and enjoy hands-on laboratory work. 

Course content is based on the syllabus of the Advanced Placement Program developed by the College Board. The topics include atomic structure, bonding, compound structure and properties, intermolecular phases and forces, chemical reactions, chemical thermodynamics, equilibrium and kinetics, formation and behavior of solutions, acids and bases, and electrochemistry. 

As mandated by the College Board, students will spend at least 25 % of the time involved in hands-on laboratory investigations. Many of these are of an inquiry nature and are open-ended where students will be required to generate questions for investigation, choose which variables to investigate, design and conduct their own experimental procedures, collect, analyze, interpret, and display data, and determine how to present their conclusions. Students will learn to use modern chemical lab techniques such as LabPro interface and LogerPro software, spectroscopy, spectrophotometry, various gravimetric analysis, and chromatography. 

Development of critical thinking skills and clear communication of ideas are key components of the course. Students will develop skills in the qualitative representation of chemistry models and connection of the macro-world phenomena with the micro-world representations and models are emphasized. Students will use appropriate mathematics (algebra manipulations, reading and building graphs) to solve problems quantitatively. 

The advanced placement student is expected to do considerable outside study and preparation including significant reading assignments from the online and textbook sources, question and problems sets, and work related to labs including but not limited to design of lab investigation method, data analysis and writing of lab discussions. 

Students are encouraged to take the Advanced Placement Examination, and those who do so will be exempted from the course final examination if they choose. 

AP ENVIRONMENTAL SCIENCE (364)

Grades 11-12 Advanced Placement

(Year)  1.5 credits 

A successful AP Environmental student should have:      

1. Completed Honors Chemistry or Physics with a B or higher

2. Completed Honors Biology with a B or higher  and/or

3. Completed Algebra 1 with a B or higher and/or

4. Strongly recommend Data Science Statistics or Statistics 

5. Teacher recommendation

AP Environmental Science is an interdisciplinary science course that focuses on the human impacts on earth, ecological processes, biodiversity, land and water use, global environmental changes, and ways to restore habitats and prevent natural and human made environmental problems.  Like other AP science courses, this introductory college level class will have a strong emphasis on developing lab skills, while also giving students a hands-on field work experience where they are expected to apply scientific principles and methodologies to help solve real world problems.  This is a lab course that integrates outdoor field work and classroom experiments to build a deeper understanding of environmental topics.  Students will be expected to work collaboratively in groups, spend time outside of class studying and doing homework, collect and analyze environmental data, take timed tests, and develop scientific writing skills.  Students are required to take the Advanced Placement Environmental Science Examination in May.

ANATOMY AND PHYSIOLOGY (378)

Grades 10-12: Level 2

(Semester) .75 credits

Prerequisite: Successful completion of Biology (C or better)

Note:  This course is for non-IP Healthcare students

How do the structures of the body relate to their function?  What does it mean to be healthy or have a disease?  Anatomy is the study of the systems of the human body. It begins at the tissue level and covers both the microscopic and large (gross) structures and their functions. The pathology or diseases of each system is explored with a focus on how our choices affect our overall health. Dissection labs are part of this course and may include a mammalian organism, or individual organs such as the brain, kidney, heart and knee of either a cow or sheep. Diagrams and visuals are an essential part of the course and should interest those students who enjoy art. Assessments include a good deal of memorization of anatomical vocabulary. Other lab experiences include measuring pulse, blood pressure, respiration rate,and lung volume.

HONORS ANATOMY AND PHYSIOLOGY (379)

Grades 10-12: Honors

(Semester) .75 credits

Prerequisite: Successful completion (B or better) in Biology or Honors Biology

Note:  This course is for non-IP Healthcare students

This course is an intensive study of the systems of the human body. It is suitable for students considering careers in medicine, nursing, physical therapy, or other health sciences but who are not part of the IP program. Systems are explored from the microscopic level through the tissue and gross (large) organ level. The pathology (disease) and homeostatic imbalances of each system is discussed as well the interdependence of each system on the others. Dissection is an essential part of this course and includes a mammalian organism (cat, rabbit, or mink), as well as individual organs including the heart and knee of either a cow or sheep. Students will utilize art extensively for projects in each body system including sketching and clay models. Assessments will include a great deal of memorization of anatomical vocabulary. Other lab experiences include measuring pulse, blood pressure, respiration rate, and lung capacity.

IP ANATOMY AND PHYSIOLOGY LEVEL 2 AND HONORS (301/302)

Grade 11: (First Semester) .75 credits

Prerequisite: B or better in Biology or Honors Biology, completion of Biology MCAS

Note:  This course is for IP Healthcare students ONLY.

This course is a requirement for students in the IP Healthcare pathway.

Health Science 1 covers all Anatomy and Physiology content with a specific focus on the national health science standards. Topics include anatomical language, tissues, integumentary system, skeletal system, muscular system, cardiovascular and respiratory systems.  Pathology of these body systems will focus on arthritis, asthma, skin cancer, muscular dystrophy, myocardial infarction, and cystic fibrosis. Lab experiences will include dissections, lung capacity, CPR and AED certification.  Guest presenters from our community partners will be working with the health science classes.

IP HONORS HEALTH SCIENCE (396)

Grade 11: (second semester) .75 credits

Prerequisite: successful completion of Health Science 1

Note:  This course is for IP Healthcare students ONLY

This course is a requirement for students in the IP Healthcare pathway.  Anatomy topics covered include the nervous, endocrine, urinary and reproductive systems. Other topics include medical mathematics,  health care professional responsibilities including patient privacy, medical ethics, and healthcare delivery systems. Diseases that will be discussed include diabetes, concussion and stroke.  Students will learn practical skills including first aid, and monitoring vital signs.  Emphasis will be placed on professionalism, communication and employability skills gained through role playing scenarios.  Students will have the opportunity to become CPR/First Aid certified as part of this class and will be required to take the National Health Science Assessment at the end of the course.

ECOLOGY (289/290)

Grades 10-12: Level 2 and Honors (Semester) .75 credits

Prerequisites:  Successful completion of Biology or Introduction to Physics

Ecology is the study of the interactions between living organisms and their environment.  This class will study the principles of ecological science, including concepts of population and community ecology, biodiversity, and sustainability. Field trips to local ponds and estuaries, hands-on labs, service learning projects, and student-centered activities are the foundation for learning in this class.  Activities may include working with local community partners on pond experiments, studying water quality along the Bass River, conducting a pond study on Flax Pond, using algae for wastewater management, and setting up field experiments. Throughout this course, students will be immersed in learning about topics about local environmental problems and exploring their solutions, studying competition between  species, researching population changes, and studying the natural history of Cape Cod.  The expectation is that students will spend much of their time outside doing environmental monitoring and field work.  

Honors students should be highly motivated, college bound students who are willing to engage in more rigorous class work, homework, and be assessed on more content and at a higher level on all written and oral work. 

MARINE SCIENCE (287) 

Grades 10-12: Level 2 

(Semester) .75 credits

Prerequisite: Successful completion of Biology or Honors Biology

Travel around the world exploring the depths of the ocean, while investigating the interrelationships of living and nonliving existence within Earth’s oceans. Marine Science is the exploration of the oceans using biology (living beings) and physical sciences (chemistry, physics, and geology). Through projects, labs and other activities, students analyze data and communicate findings about the marine environment.  Topics may include water and estuaries, oceanic currents, plankton, coral reefs, ocean pollution, fishing, or cartilaginous fishes. 

Honors Option: Through guided research projects, students expand their understanding of the ocean using topics of their choosing. Additionally, weekly current event assignments provide an expansion of understanding of topics learned in class. 

Fall

HONORS BIOLOGY OF CANCER (354)

Grades 11-12: Honors

(Semester) .75 credits

Prerequisites: Successful completion of (C or better) of Biology or Honors Biology.

In this 15-week elective course supported by support of the Great Disease program from Tufts University, students will learn the history of cancer; they will understand how cancer is studied in epidemiology and research. The course will reflect the latest in research and application of today. 

Students will dive into the cellular world and refresh their knowledge of cellular division and learn about its regulation. Students will also explore DNA and its function in protein production, in communication between cells, and also its regulation. Mutations will be a main subject throughout this course. Knowledge of anatomy and physiology will be reinforced and will be a constant throughout the course. Biochemistry and biotechnology as well as molecular genetics will take place as supporting cast throughout the whole course as well. Students will have a chance to explore screening and diagnosis of the disease and understand the new approaches in medicine and in research. Evolution concepts will be central throughout and will drive the entire discussion on the random processes of mutations when placed in the definitive world of the environment where cells live. The course will attempt to answer the following 5 questions: What is cancer and why should we care? What does it mean to be a ‘normal’ cell? How does a normal cell become cancerous? How does cancer make us sick? How do we treat cancer? 

The class will consist of case studies, videos, and worksheets in class, simple presentations and some application of mathematics such as statistics. Grading will be based mostly on classroom participation and completion of work, presentations and quizzes. A single final test which will address students’ misconceptions will also be part of the grading.

NEUROLOGICAL DISORDERS (368/369)

Grades 11-12: Level 2 or Honors by contract

(Semester) .75 credits

Prerequisites: Successful completion of (C or better) of Biology, Biology Systems or Honors Biology.

This course is excellent for …Helpful feeder course: AP Psychology

This course includes the curriculum from the Tuft’s University Great Diseases project for students- a curriculum designed to engage high school students in the science behind their real-world experiences of health and disease. The Neurological Disorders (ND) course is organized around five key questions.  What do our brains need to do? What are the building blocks of our brains? How do our neurons communicate with each other? How do our neurons work together to control behaviors? How do our choices change our brains? These questions guide our investigation of the nervous system from the building blocks of our brains to how our brains control behavior. The students will explore each of these questions and then, for a final project (honors), use what they have learned to describe how the different choices we make can change our brains. Topics include neuron axon signaling, PET, MRI and other brain diagnostic tools, sleep, memory and learning, drugs and addiction, pain and reward pathways, narcolepsy, epilepsy and Alzheimer’s Disease as well as animal models for research.The class will consist of case studies, videos, and worksheets in class, simple presentations and some application of mathematics such as statistics. Grading will be based mostly on classroom participation and completion of work, presentations and quizzes. A single final test which will address students’ misconceptions will also be part of the grading. 

Honors requirements will include a final book report from a famous neurologist.

METABOLIC DISEASE (351/352)
Grades: 11/12 Level 2 or honors 

(Semester) .75 credits
Prerequisites: Successful completion of (C or better) of Biology, Biology Systems or Honors Biology 

This course includes a curriculum from the Tuft’s University Great Diseases project for students- a curriculum designed to engage high school students in the science behind their real-world experiences of health and disease. What is in my food?  How does my body use food?  What is a metabolic disorder? What makes trans fats so bad?    Topics include: food industry, metabolism of digestion, nutrition, GMO's, gut bacteria, the gut-brain connection, obesity and metabolic syndrome and diets.  Students will be able to use their knowledge to evaluate nutrition claims using scientific evidence. The class will consist of case studies, videos, and worksheets in class, simple presentations and some application of mathematics such as statistics. Grading will be based mostly on classroom participation and completion of work, presentations and quizzes. A single final test which will address students’ misconceptions will also be part of the grading. 

Honors requirements will include a final project that students will select from options discussed in class.

HONORS BIOTECHNOLOGY (307)

Grades 11-12: Honors

(Semester) .75 credits

Prerequisites: 

1. B or better in Honors Biology 

2. B or better in Honors Chemistry or currently enrolled in Honors Chemistry with a B+ or better average for Semester 1 and teacher recommendation. 

This laboratory life science class is designed for students who want to explore topics in biotechnology. Students should have an interest in biological fields and solid math skills. With an industry focus, Biotechnology is an excellent course for students who are considering careers such as genetics, biomedical engineering or biomedical research. 

Biotechnology is a multi-disciplinary course integrating a variety of topics from the areas of biochemistry, microbiology, molecular biology, virology, cell biology, genomics, and proteomics. This course is a hands-on, high level laboratory techniques course. The course will emphasize chemistry, biochemistry, modern biotechnology laboratory techniques including aseptic techniques for establishing microbial cultures, detection and analysis of recombinant DNA molecules, protein purification, gel electrophoresis and the use of PCR technology for genetic analysis. Biogenealogy, evolution, disease diagnosis, cancer screening and forensics sciences (including discussions of crime scene investigation, fingerprinting, and skeleton identification), biopharmaceuticals and agriculture are possible topics for inquiry. 

The interdisciplinary field of Bioinformatics using computational techniques may help frame and solve biological problems becoming an essential component of modern life sciences. In this course, the basic concepts of bioinformatics will be discussed with the focus on how to identify, obtain, establish, maintain and exchange research information in biology. The use of mathematical, statistical and computing methods to solve complex biological problems using searches of internet databases will be employed. Although this does not require any computer programming skills, prior exposure to personal computers, e-mail, and the Internet is essential. Throughout the course, possible career paths and ethics will be presented and discussed.

The grading will include attendance, promptness, preparedness, willingness to do hands-on lab work every time the class meets, maintenance of a lab notebook with cooperation with classmates, cooperative teamwork, lab skills, labs results, discussions, presentations, and a final presentation that will assess the entire course.

EVOLUTION AND BIODIVERSITY (343/376) 

Grades 10-12: Level 2 / Honors 

(Semester) .75 credits

This course is offered every even school year (ex: 2024-25)

Why is there such a wide variety of life on earth? How do organisms adapt to their surroundings? Why are modern species different from their ancestors? How can knowledge of these changes impact human health and well-being?

In this course, students will explore the evolution of life on earth, delving into important concepts such as natural selection, common ancestry, speciation, and extinction. Students will explore the diversity of life by researching the fossil record to examine milestones in life’s history, such as the formation of the first cells, the start of photosynthesis, and the beginning of multicellular life. This course will emphasize the use of simulation labs, models, and dissections to explore these concepts. Perhaps most importantly, students will consider the direct, practical impacts evolution has on human health, agriculture, forensics, industry, and natural resource conservation.

HORTICULTURE (387)

Grades 9-12: Level 2

(Semester) .75 credit

Do you like working with your hands?  Do you enjoy doing engaging labs in science?  Do you love being outside?  Do you like to cook and eat good food?  If so, then horticulture may be the perfect class for you.  Horticulture is an interdisciplinary course that explores many topics about plants.  Students in this class will learn the art and science of growing plants in the greenhouse and also work in outdoor garden beds.  Students who leave this course will know about the art of plant management, be able to do basic landscaping, learn gardening techniques, and be able to prepare healthy recipes using the plants they grow in the greenhouse.  Students will have many opportunities to engage with community partners in organizing plant sales, working with elementary students on planting projects, take field trips to nurseries, interact with local gardeners, and help maintain garden beds at our school.