Energy, Work, & Simple Machines

Energy

Work

Simple Machines

Kinetic Energy

Potential Energy

100

What is Energy?

The ability to do work

100

What is work?

The use of force to move an object a certain distance

100

A rod that rotates on a fixed point.

Lever

100

What is kinetic energy?

Energy of motion or moving energy

100

What is potential energy?

Energy of position or stored energy

200

What is the Law of Conservation of Energy

Energy cannot be created or destroyed.

200

What is the equation for work and the units for each variable?

Work (J) = Force (N) x distance (m)

200

The ______________ or ___________ force is how much force is being applied to a simple machine.

effort, input

200

If mass of an object remains constant and its velocity is doubled then the kinetic energy of the object is___________. HINT use the equation for KE

Quadrupled (increased by 4)

200

If the mass of an object remains constant and its height is doubled, then its gravitational potential energy is_____________

Doubled

300

Why is it impossible to transfer 100% of the energy used when doing work?

Some energy is always lost to friction

300

What is transferred when work is done?

Energy

300

Name the 6 simple machines

lever, pulley, wheel and axle, inclined plane, wedge, screw

300

When an object reaches its highest velocity it has ________________ kinetic energy.

Maximum

300

Mass and height are _________ proportional to gravitational potential energy.

Directly

400

How does the Law of Conservation account for "lost energy"? **hint: what is "lost energy" transformed into**

"Lost energy" becomes thermal energy or another form such as sound

400

William used 60 N to run a 50 m dash. How much work did he do?

60 N x 50 m = 3,000J

400

A machine always loses some energy in the form of __________ energy.

Thermal

400

Kinetic energy decreases as __________ and __________ decrease.

Mass and velocity

400

Gravitational potential energy increases as __________ and __________ increase.

mass and height

500

Explain the relationship between kinetic energy and potential energy.

Kinetic energy and potential energy are both inversely related. For example, if kinetic energy increases, potential energy decreases.

500

How are work and force related?

Work and force are directly related. For example, when force increases, work also increases.

500

3 ways simple machines make work easier. HINT: use the word force is every answer

Simple machines make work easier by

1.changing the size of force

2. direction of force

3. distance the force is applied.

500

3 forms of kinetic energy

Thermal energy Electrical energy, Sound Energy, Radiant Energy visible light, x-rays, gamma rays radio waves, solar), Energy of Motion

500

3 forms of potential energy

1. Chemical Energy, Gravitational energy, Nuclear Energy, Stored Mechanical Energy (Ex. compressed springs and stretched rubber bands)