Science teaching assistants provide support for the science department (1 hour/week) either before school, after school, or during resource period in one or more of the following ways:
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- Lab Assistant – assist with the setup and cleanup of science labs
- Peer Assistant – assist students taking introductory biology, chemistry, or physics
- Teacher Assistant – assist with grading assignments that require no teacher interpretation
Students interested in being a TA are required to fill out a short application available from the science department chair. Teaching assistants will be selected based on department needs and student qualifications. In some cases, students taking AP science courses will have priority in being a TA due to their qualifications in offering peer assistance.
*Taken as an independent study with the guidance of science teacher
(Physical or Life Science) Students perform one or more additional independent science or engineering research projects, beyond those completed in the first semester Science Research Project course, or perform a substantial extension of a project completed in the previous course. This is an independent study course, with flexible meeting times that will be arranged to fit the schedules of the students. This course is taken in addition to the science requirement for graduation. Enrollment in Advanced Science Research does not qualify a student for a study period during the regular academic day.
*Taken as an independent study with the guidance of science teacher
(Physical or Life Science) This course offers students the opportunity to develop and demonstrate the maturity and self-discipline required to perform independent scientific research. Students perform one or more independent science or engineering research projects, in laboratory or field settings, on topics of their own choice. The meeting times are flexible and will be arranged to fit the schedule of the student. Areas of study include any area of science or engineering, including: quantum physics, astronomy, robotics, electronics, biotechnology, geology, meteorology, biochemistry, genetics, molecular biology, oceanography, marine biology, psychology, sociology, economics, political science, statistics, etc., as well as traditional areas of biology, chemistry, physics and engineering. Students will gain direct experience in research methodologies used by professional scientists and engineers in industry and academia. This course is taken in addition to the science requirement for graduation. Enrollment in Science Research does not qualify a student for a study period during the regular academic day.
*Taken as an independent study with the guidance of science teacher
The course (Physical or Life Science) will focus on concepts of molecular biology and common bio-tech lab skills. Students will develop a deep understanding of the central dogma of Biology by learning about DNA, RNA, proteins and the techniques scientists use to study Molecular Biology. This course will have a strong focus on inquiry-based learning, labs, and student-directed projects that will require students to learn and use responsible academic research practices. Students will also integrate basic mathematical skills through data analytics. Additionally, students will explore the ethical considerations that stem from modern techniques seen in medicine and the biotech industry. This course is for a broad range of students who wish to pursue a course of study in science or who just have curiosity for biology at the cellular level.
Environmental science is the study of our natural environment, with an emphasis on humanity’s impact on the environment. This is a project and inquiry-learning based course that investigates the science behind today’s environmental issues. Students will be immersed in hands-on science activities, group work, discussions of current scientific research, a long-term scientific investigation, decision-making based on their critical thinking skills, and the design of inquiry-based experiments. The course is arranged in independent modules that offer students a holistic approach towards environmental issues by exploring current environmental problems from a scientific interdisciplinary perspective. While topics will focus of life science related issues, we will also incorporate some basic geological, physical, chemical and technological components that directly impact living creatures.
Engineering consists of the application of scientific knowledge in the creation of useful products. This course acts as an introduction to the concepts and methods of engineering with an intensive hands-on laboratory/workshop component. Students will be expected to conceptualize, design, build, and debug a variety of projects, working independently or in collaboration with other students. Units of study vary by semester, allowing students to take either or both semesters in a single year, and may include mechanical, electrical, robotic, computer, aeronautical, automotive, acoustic, naval, civil, fluid and/or chemical engineering. Several off-campus field trips to visit engineering sites or companies may be required. (Since engineering is not, strictly speaking, a science, this course does not qualify as a UC-approved lab science.)
Astronomy (Physical Science) is the scientific study of celestial objects and phenomena. This course allows a student to apply fundamental concepts learned in biology, chemistry, and physics to new problems in astronomy. Units of study include the apparent motion of the sky, the characteristics of the planets and moons of our solar system, the properties and evolution of stars, the structure and behavior of galaxies, the Big Bang and early universe, and exotic and exciting concepts such as black holes, pulsars, extrasolar planets, curved spacetime, dark matter, and dark energy. A handful of nighttime observation sessions are recommended.
*This course is offered as an on-line class.
NOTE: For the 2024-2025 academic year, this course will be offered 8th period.
The AP Physics (Physical Science) course is equivalent in content, depth, and complexity to an introductory physics course at the college level. This course is designed to prepare the student to excel on the AP Physics C: Mechanics exams offered in May. The course follows the AP curriculum closely. AP Physics is an in-depth, content-intensive study of physical principles that allows students the opportunity to engage hands-on in scientific experimentation. Core units of study include kinematics, Newton’s laws, conservation laws, harmonic motion, and rotational motion. Additional topics will vary but may include electricity & magnetism, relativity, quantum mechanics, particle physics, thermodynamics, and other advanced topics. Use of calculus in problem solving is expected to increase as the course progresses. Students are required to take the Advanced Placement exam in May. Students are required to complete an assignment over the summer due on the first day of school. This is a mathematically rigorous course which requires a solid foundation in both physics and math.
Corequisite – Students enrolling in this course must also enroll in the corresponding AP Science Laboratory course, which meets once per week for 50 minutes outside of the regular bell schedule. Meetings will occur before or after school.
*Class receives honors weighting in SI weighted GPA and UC/CSU GPA calculations
The AP Chemistry (Physical Science) course is equivalent in content, depth, and complexity to an introductory chemistry course at the college level. This course is designed to prepare the student to excel on the AP exam offered in May, and follows the AP curriculum closely. AP Chemistry is an in-depth, content-intensive study of chemical principles that allows students the opportunity to engage hands-on in scientific experimentation. Units of study include chemical reactions, modern atomic theory, molecular bonding, hybridization, organic chemistry, stoichiometry, thermodynamics, kinetics, aqueous equilibrium, acids, bases, precipitation, reduction, oxidation, electrochemistry, and nuclear chemistry. Students are required to take the Advanced Placement exam in May. Students are required to complete an assignment over the summer due on the first day of school.
Corequisite – Students enrolling in this course must also enroll in the corresponding AP Science Laboratory course, which meets once per week for 50 minutes outside of the regular bell schedule. Meetings will occur before or after school.
*Class receives honors weighting in SI weighted GPA and UC/CSU GPA calculations
The AP Biology (Life Science) course is equivalent in content, depth, and complexity to an introductory biology course at the college level. This course is designed to prepare the student to excel on the AP exam offered in May, and follows the AP curriculum. AP Biology is an in-depth, content-intensive study of biological principles that allows students the opportunity to engage hands-on in scientific experimentation. Units of study include but are not limited to evolution and natural selection, the chemistry of life, cell structure and function, cellular energetics, cell communication and the cell cycle, heredity, gene expression and regulation, and ecology. Students are required to take the Advanced Placement exam in May. Students are required to complete an assignment over the summer due on the first day of school.
Corequisite – Students enrolling in this course must also enroll in the corresponding AP Science Laboratory course, which meets once per week for 50 minutes outside of the regular bell schedule. Meetings will occur before or after school.
* Class receives honors weighting in SI weighted GPA and UC/CSU GPA calculations
