Unit 3

Question 1

impulse is equal to…

Answer 1

…change in momentum

Question 2

What do you need in order to cause a change in momentum?

Answer 2

Have to exert an impulse.

Question 3

Impulse equation

Answer 3

impulse = force * time interval = Ft
Ft = change in momentum = (change in m*v)

Question 4

Momentum equation

Answer 4

Momentum = mass * velocity = mv OR mass * speed

Question 5

Momentum

Answer 5

Inertia in motion

Question 6

A moving object can have a large momentum if it…

Answer 6

…has a large mass, a high speed, or both.

Question 7

What produces acceleration?

Answer 7

Force.

Question 8

Impulse

Answer 8

Change in momentum depends on the force that acts the length of time it acts.

Question 9

Decrease momentum

Answer 9

Extend the time of contact, reduce the force of the catch.

Question 10

The impulse required to bring an object to a stop and then to “throw it back again” is…

Answer 10

…greater than the impulse required merely to bring the object to a stop.

Question 11

Law of Conservation of Momentum

Answer 11

States that, in the absence of an external force, the momentum of a system remains unchanged.

Question 12

Whenever objects collide in the absence of external forces…

Answer 12

…the net momentum of both objects before the collision equals the net momentum of both objects after the collision.

Question 13

Elastic collision

Answer 13

When objects collide without being permanently deformed and without generating heat.

Question 14

Inelastic collision

Answer 14

A collision in which the colliding objects become distorted and generate heat during the collision.

Question 15

Equation conservation of momentum

Answer 15

net momentum(before collision) = net momentum(after collision)
OR
(net mv)before = (net mv)after

Question 16

Vector sum of momenta is…

Answer 16

…the same before and after a collision

Question 17

The force or impulse must be exerted on the object by something….

Answer 17

…outside the object.

Question 18

Momentum is conserved only when interacting objects move along…

Answer 18

…the same straight path

Question 19

With the absence of air resistance in space…

Answer 19

gravity is the only opposing force that affects two docking space stations.

Question 20

Properties of energy

Answer 20

• is conserved
• cannot be created or destroyed
• can change form
• measured in joules

Question 21

Work

Answer 21

Product of a net force on an object and the distance through which the object is moved.

Question 22

Power

Answer 22

Rate at which work is done.

Question 23

Power equation

Answer 23

(work done)/(time interval)

Measured in watts.

Question 24

Mechanical energy

Answer 24

Energy due to the position or the movement of something. Kinetic and potential energy

Question 25

Potential energy

Answer 25

(PE). In stored state it has the potential for doing work. Three examples: elastic potential, chemical, and gravitational potential.

Question 26

Kinetic energy

Answer 26

energy of motion. Not moving: zero units of energy.

Question 27

Energy

Answer 27

Property of an object on system that enables it to do work. Measured in joules

Question 28

Work is done when…

Answer 28

a force acts on an object that results in the object moving in direction of the force.

Question 29

Work equation

Answer 29

work = net force * distance
W = Fd

Question 30

1 joule =

Answer 30

1N/1m

Question 31

Gravitational potential energy

Answer 31

gravitational potential energy = weight * height

PE = mg * h

Question 32

Kinetic energy equation

Answer 32

kinetic energy = (1/2)mass * speed^2
KE = (1/2)mv^2
net force * distance = KE
Fd = (1/2)mv^2

Question 33

Work-energy theorem

Answer 33

work = (change in)KE. Whenever work is done, energy changes

Question 34

Law of conservation of energy

Answer 34

States that energy cannot be created or destroyed. It can be transformed from one form into another, but the total amount of energy never changes.

Question 35

Machine

Answer 35

Device used to multiply forces or simply change the direction of forces.

Question 36

Machine function

Answer 36

Transfers energy from one place to another or transforms it from one form to another.

Question 37

Lever

Answer 37

Machine made of a bar that turns about a fixed point.
work input = work output
(force*distance)input = (force * distance)output

Question 38

Mechanical advantage

Answer 38

(ratio output force)/(ratio input force)

Question 39

Pulley

Answer 39

Kind of lever that can be used to maintain the direction of force or change the direction of a force. can also multiply the force involved, but the amount of work done stays the same.

Question 40

In any machine…

Answer 40

…some energy is transformed into atomic or molecular kinetic energy - making the machine warmer.

Question 41

Efficiency of a machine

Answer 41

efficiency = (useful work output)/(total work input)

Question 42

Efficiency percentage

Answer 42

(actual mechanical advantage)/(theoretical mechanical advantage)

Question 43

Energy for life

Answer 43

there is more energy stored in the molecules in food than there is in the reaction products after food is metabolized. This energy difference sustains life.

Question 44

Fuel Cell

Answer 44

When one makes electrolysis process run backwards.

Question 45

1MW =

Answer 45

1,000,000W

Question 46

1 unit horsepower =

Answer 46

0.75kW

Question 47

What happens when simple lever rocks about its fulcrum, or a pulley turns about its axis?

Answer 47

A small fraction of input energy is converted into thermal energy.

Question 48

two ways to calculate gravitational potential energy?

Answer 48

Weight times height or mass times acceleration due to gravity (g) times height are the two ways to calculate gravitational potential energy.

Question 49

Why can wind be considered a type of solar power?

Answer 49

Wind is caused by unequal warming of Earth’s surface.

Question 50

If momentum is changing but mass remains the same, then…

Answer 50

…velocity must be changing.

Question 51

If velocity is changing then…

Answer 51

…the object is accelerating.

Question 52

Acceleration always means that…

Answer 52

…there is a net force.