Work, Power, Energy - AC Jeopardy Template

Work

Work-Energy Theorem

Power

Kinetic Energy

Potential Energy

100

Work Formula

w=fd

work= force x displacement

100

Work Energy Theorem Formula

Wnet= F_netd = ½ mv_f²- ½ mv_i²

100

The rate at which work is done is _____.

Power

100

Kinetic Energy Formula

½ mv²

1/2 x mass x velocity²

100

Potential Energy Formula

mgh

mass x gravitational field x height

200

SI unit for Work

Joules

200

The work-energy theorem states that the net work done by the forces on an object equals the _____________.

Change in Kinetic Energy

200

Power formula

P= w/t

power= work / time interval

200

the net work done by all forces acting on an object is ___________

Change in Kinetic Energy

200

The stored energy in a spring is _________.

Elastic potential Energy

300

Amy uses 20N of force to push a lawn mower 10 meters. How much work does she do?

200 J

300

A 2.0 kg book is accelerated from 2.0 m/s to 4.0 m/s as it is pulled across a table. What is the amount of work needed to accelerate the book to the nearest tenth of a joule?

12.0 J

300

SI unit for Power

Watts (W)

300

Kinetic Energy os associated with an object’s _____ and _____.

mass , velocity

300

What is the potential energy of a 3 kg ball that is on the ground?

The potential energy is 0.

400

When the force has a component that is in the same direction as the displacement, the work done by that force is _______.

Positive

400

A 2 kg ball is dropped from a height of 10 m. Calculate the work that has been done on the ball between the moment it is released and the moment when it hits the ground. Assume that air resistance can be neglected.

196 J

400

Power Formula #2

P=Fv

Power= Force x speed

400

You serve a volleyball with a mass of 3.1 kg. The ball leaves your hand at 45 m/s.

3138.75J

400

The potential energy of an apple is 4.5 joules. The apple is 5 m high. What is the mass of the apple?

0.09 kg

500

When the force has a component that is in the opposite direction of the displacement, the work done by that force is ______.

Negative

500

A car of mass 500 kg traveling at a speed of 16 m/s applies the car’s brakes at some point. The car’s brakes provide a frictional force of 4000 N. Determine the stopping distance of the car.

16 m

500

Two horses pull a cart. Each exerts a force of 250.0 N at a speed of 2.0 m/s for 10.0 min. What is the power delivered by each horse.

500 W

500

Which point has the most kinetic energy?

Point B

500

At what height is an object that has a mass of 85kg, if its gravitational potential energy is 3700J?

0.45 m