Unit 5, Module 1 Review

Work

Energy Accounts

Energy Transformations

Power

Mousetrap Car Prep

100

This is the formula for work

W=Fd

100

This is the energy of motion.

Kinetic Energy (KE)

100

In an LOL diagram, the "L"s represent these two things.

Initial and Final states

100

Power is defined as the work done over a certain period of __________.

time

100

In the elastic potential energy equation, what does the “x” represent?

Distance the spring is stretched or compressed

200

If you push a car with 500 N of force but the car doesn’t move, this is the amount of work you have done.

0 Joules

200

This is the energy stored in a compressed spring or a stretched rubber band.

Elastic Potential Energy (PEs)

200

In a "Perfect World" system with no friction, the total number of bars must __________ from start to finish.

Remain constant / Stay the same

200

The unit for Power, which equals 1 Joule per second.

Watt

200

If you double the compression of a spring, the energy increases this many times.

4 times, because x is squared

300

This is the unit used to measure Work.

Joules

300

This is what the "g" stands for in the Potential Energy equation.

gravitational constant = 9.8 m/s^2

300

Identify the energy trade: A ball is dropped from a roof and is currently halfway down.

PEg to KE

300

If Person A and Person B do the same work, but Person A is faster, this person has more power.

Person A

300

This value (k) tells you how "stiff" or "strong" a spring is.

spring constant

400

Calculate the work done to lift a 10 kg box 2 meters high

196 J

400

Calculate the Kinetic Energy of a 2 kg ball moving at 4 m/s.

16 J

400

Identify the energy trade: A child pushes down on a pogo stick spring before jumping.

KE to PEs

400

Calculate the power of a motor that does 500 J of work in 5 seconds.

100 W

400

Calculate the energy in a spring where k = 100 N/m and x = 0.5 m.

12.5 J

500

True or False: Carrying a heavy box across a flat room at a constant speed is considered "Physics Work."

False—force is up, motion is sideways

500

A 100 kg boulder sits on a 10 m cliff. Calculate the PEg.

9,800 J

500

If a system has 40 J of PEg at the top of a hill, this is how much KE will it have at the bottom if there is no friction.

40 J

500

A student with a weight of 500 N climbs a 4 m ladder in 10 s. Calculate the power.

200 W

500

To make a Mousetrap car go faster (more Power), should the spring release its energy in a _________ amount of time.

Short