WHS Physics Curriculum Guide
Students will learn important science related skills including experimental design, accurate measurement using a variety of instruments and technologies, quantitative and qualitative observations, interpreting and constructing a variety of models, construction and interpretation of graphs, application of algebra and geometry to science problems, effective communication, and applications of science concepts to the real world. This activity-based course will provide the foundation for all future science courses. Laboratory experiments will examine forces, motion, energy, electricity, magnetism, waves, light, sound and heat. This course engages students in activities that help them to conceptualize key physics concepts while also challenging them to develop and manipulate mathematical models of those concepts. Upon completion of the course, students will take the Introductory Physics MCAS exam.
Unit | Timeframe | Driving Questions | Major Learning Experiences from Unit |
---|---|---|---|
Motion | Sep - Oct | How can we describe the motion of objects and use information to predict the future motion of objects? How are an object’s position, velocity, or acceleration calculated when given other quantitative information about the object’s motion? What information about an object’s motion is determined from data on its position vs. time and velocity vs. time graphs? |
|
Forces | Oct - Nov |
|
|
Energy and momentum | Dec - Jan |
|
|
Electricity | Jan - Feb |
|
|
Waves | March - April |
|
|
Thermal physics | May |
|
|
MCAS Final Project | June | MCAS Review MCAS Prep class offered: Peardceck student paced slides |
|