1 2012 ppt semester 1 matching review

The slides used in this video are color coded. If you are experiencing difficulty with one aspect of your understanding than another you might find this coding… useful!Slides with red backgrounds involve word problems.

Slides with tan backgrounds involve matching concepts.

Slides with olive backgrounds involve reading data tables.

Slides with green backgrounds involve graphing.

DisplacementVelocityAccelerationInertiaForceMomentum

• The change in the rate or direction of motion.

• The resistance to a change in an object’s current state of motion.

• A change in position.• A push or a pull that

tends to accelerate an object.

• The movement of an object in a specific direction over time.

• The product of mass times velocity.

Displacement is a change in position.Velocity is the movement of an object in a specific direction over time.Acceleration is the change in the rate or direction of motion of an object.Inertia is the resistance to a change in an object’s current state of motion.Force is a push or a pull that tends to accelerate an object.Momentum is the product of mass times velocity.

Position Graph

Can you predict the slope shape and orientation of both the velocity and acceleration graphs?

Graph Options

Position Graph

Can you predict the slope shape and orientation of both the velocity and acceleration graphs?

Graph Options

V = 0 m/s

Position Graph

Can you predict the slope shape and orientation of both the velocity and acceleration graphs?

Graph Options

V = 0 m/s

Position Graph

Can you predict the slope shape and orientation of both the velocity and acceleration graphs?

Graph Options

Velocity Graph

Position Graph

Acceleration

Graph

Vy = 0 m/s

Vy = 0 m/s

-V

+V

g = -9.8 m/s2

MotionMap

Graph Options

Can you predict the slope shape and orientation of the position, velocity, and acceleration graphs?

MotionMap

Graph Options

Can you predict the slope shape and orientation of the position, velocity, and acceleration graphs?

MotionMap

Graph Options

Can you predict the slope shape and orientation of the position, velocity, and acceleration graphs?

MotionMap

Graph Options

Can you predict the slope shape and orientation of the position, velocity, and acceleration graphs?

Position Graph

Motion Map

Acceleration GraphVelocity Graph

Graph Options

MotionMap

Can you predict the slope shape and orientation of the position, velocity, and acceleration graphs?

Graph Options

MotionMap

Can you predict the slope shape and orientation of the position, velocity, and acceleration graphs?

Graph Options

MotionMap

Can you predict the slope shape and orientation of the position, velocity, and acceleration graphs?

Position Graph

Velocity Graph

Graph Options

MotionMap

Can you predict the slope shape and orientation of the position, velocity, and acceleration graphs?

Position Graph

Velocity Graph

Position Graph

Motion Map

Acceleration GraphVelocity Graph

MotionMap

Graph Options

Can you predict the slope shape and orientation of the position, velocity, and acceleration graphs?

MotionMap

Graph Options

Can you predict the slope shape and orientation of the position, velocity, and acceleration graphs?

Position Graph

MotionMap

Graph Options

Can you predict the slope shape and orientation of the position, velocity, and acceleration graphs?

Position Graph

MotionMap

Graph Options

Can you predict the slope shape and orientation of the position, velocity, and acceleration graphs?

Position Graph

Velocity Graph

Position Graph

Motion Map

Acceleration GraphVelocity Graph

Force Diagra

msMotion

Map

Match the force diagram to the motion map. Can you also predict the slope shape and orientation of the position, velocity, and acceleration graphs?

Force Diagra

msMotion

Map

Match the force diagram to the motion map. Can you also predict the slope shape and orientation of the position, velocity, and acceleration graphs?

Force Diagra

mMotion

Map

Position

Graph

Velocity Graph

Acceleration

Graph

Force Diagra

msMotion

Map

Match the force diagram to the motion map. Can you also predict the slope shape and orientation of the position, velocity, and acceleration graphs?

Force Diagra

msMotion

Map

Match the force diagram to the motion map. Can you also predict the slope shape and orientation of the position, velocity, and acceleration graphs?

Force Diagra

mMotion

Map

Position

Graph

Velocity Graph

Acceleration

Graph

Force Diagram

Motion Map

Position (ΔY) Graph

Velocity (Vy) Graph

Acceleration Graph

Can you predict the motion map, and kinematic graphs for this freefalling object?

Force Diagra

m

Motion Map

Velocity (Vy) Graph

Acceleration Graph

Position (ΔY) Graph

Force Diagram

Motion Map

Position Graph

Velocity (Vy) Graph

Acceleration Graph

Can you predict the motion map, and kinematic graphs for this elevator?

Force Diagra

m

Motion Map

Position Graph

Velocity (Vy) Graph

Acceleration Graph

Force Diagram

Motion Map

Position Graph

Velocity (Vy) Graph

Acceleration Graph

Can you predict the motion map, and kinematic graphs for the ENTIRE TRIP?

Force Diagra

m

Motion Map

Position Graph

Velocity (Vy) Graph

Acceleration Graph

Because of this wind, a 15 kgpackage is blown from Dr. Fiala’sarms and onto the ground. The 15 kgpackage reaches a velocity of 30.41 m/s in a time of 4 seconds. Find theforce acting on the box horizontally ifthere is no friction.

Force Diagra

msMotion Map

Match the force diagram to the motion map. Can you also predict the slope shape and orientation of the position, velocity, and acceleration graphs?

Force Diagra

mMotion

Map

Position

Graph

Velocity Graph

Acceleration

Graph

Force Diagra

mMotion Map

Position

Graph

Velocity Graph

Acceleration

Graph

Fa = 117.79 N Fg = 147 N

Fs = 147 N

Ff = 0 N

62.8 m 4 s 4 s 4 s

31.4 m/s

7.85

m/s2

Force DiagramMotion Map

Acceleration Graph

Can you predict what the force diagram, and vertical kinematic graphs for this freefalling object?

Velocity (Vy) Graph

Position (ΔY) Graph

Force Diagra

mMotion Map

Position (ΔY) Graph

Velocity (Vy) Graph

Acceleration Graph

Force

Vector Arrows for this Projectile

Acceleration

Using these vector arrows can you predict what the position, force, velocity and acceleration vector arrows would look like for this projectile at the start and at the top?

Velocity

Position

Force

Acceleration

Velocity

Position