Motion AS Physics Speed and Velocity Acceleration

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Presentation transcript:

Motion AS Physics Speed and Velocity Acceleration Graphical Representation of Motion Uniformly Accelerated Motion Falling Bodies Momentum AS Physics

Describing Motion Time Interval Time taken to travel a certain distance Distance How far the object has traveled Displacement Distance + direction Final position – initial position 2 2

Describing Motion 30 m t=0s t=3s x1 =5 m x2 =35 m

Position-Time Graph

Speed and Velocity Average Speed Total distance traveled divided by time taken Instantaneous Speed Small distance traveled divided by small time taken Average Velocity displacement divided by total time Instantaneous Velocity Rate of change of displacement at an instant 5

Velocity on a Graph Gradient of the secant line on an s-t graph Change in position over time interval Average velocity

Velocity on a Graph

Velocity on a Graph Gradient of a tangent on an s-t graph Change in position over time interval (Δt0) Instantaneous velocity Area under the graph displacement

Example Find the average velocity of the car Calculate the instantaneous velocity at 0 s, 5 s and 25 s 9 9

Interpreting Graphs 1

Interpreting Graphs 2

Acceleration Rate of change of velocity (Final velocity – initial velocity) divided by time Change in magnitude of velocity Speeding up Slowing down Change in direction of velocity Change in both magnitude and direction 12 12

Acceleration on Graphs Gradient of a secant line on a v-t graph Average acceleration Gradient of a tangent line Instantaneous acceleration 13 13

Interpreting Graphs 3

Uniformly Accelerated Motion Equations u = initial velocity v = final velocity a = constant acceleration t = time taken from start s = displacement 15 15

Uniformly Accelerated Motion Examples Page 42 Car Stopping Distances Thinking distance Car travels at constant speed Braking Distance Car decelerates Stopping Distance Thinking Distance + Braking Distance Make comparisons for initial speeds 20 and 40 metres per second (page 40) 16 16

Falling Bodies Free Fall Air Resistance Constant downwards acceleration Gravitational acceleration 9.81 ms-2 Equations Air Resistance Proportional to surface area Proportional to speed Terminal velocity Graph (page 45)

Projectile Motion Horizontal Motion Vertical Motion Examples Constant velocity Equation Vertical Motion Free Fall Constant acceleration Acceleration due to gravity Equations Examples