Force and Motion (H) Newton's second law. Inertia. Weight.

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Presentation transcript:

Force and Motion (H) Newton's second law. Inertia. Weight. Equation What does acceleration depend on? Inertia. Definition. Give and example Weight. Define mass and weight Car safety and impact forces (triple only) How are impact forces reduced How does change in momentum affect impact forces How are forces calculated Force and Motion (H) There are 2 required practical’s Force and acceleration Force and extension of a spring Identify equipment and variables for each experiment Terminal velocity. Definition Explain how objects reach terminal velocity. Draw a diagram to show. Momentum (H). Define conservation of momentum Explain why objects have a different velocity after collision or explosion Forces and elasticity. Define key terms. What is Hooke's law Equation. Forces and stopping distances. Define key terms How is thinking distance calculated?

Force and Motion (F) Newton's second law. Forces and elasticity. Equation What does acceleration depend on? Page 180/181 Forces and elasticity. Define key terms. What is Hooke's law Equation. Page 186/187 Weight. Define mass and weight Page 184 Forces and stopping distances. Define key terms What factors affect the thinking an braking distances? How is thinking distance calculated? Page 182/183 Force and Motion (F) There are 2 required practical’s Force and acceleration Force and extension of a spring Identify equipment and variables for each experiment Page 180/186 Terminal velocity. Definition Explain how objects reach terminal velocity. Draw a diagram to show. Page 185