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College Physics : Mechanics

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Example Questions

Example Question #1 : Work And Energy

A car traveling at $30\frac{m}{s}$ has a kinetic energy . If the car accelerates to $35 \frac{m}{s}$ , what will the new kinetic energy be?

Possible Answers:

1.2x

0.8x

The mass of the car is required

1.4x

Correct answer:

1.4x

Explanation:

Kinetic energy is given by $E = \frac{1}{2}mv^2$ . We will begin by calculating the car's initial kinetic energy, in terms of the unknown mass of the car :

$E_{initial} = x = \frac{1}{2}m(30\frac{m}{s})^2$ .

Next, we will calculate the final energy of the car, also in terms of the unknown mass of the car:

$E_{final} = \frac{1}{2}m(35\frac{m}{s})^2$ .

To find the ratio of the final to initial kinetic energy, we divide $E_{final}$ by $E_{initial}$ . We see that this reduces to $\frac{35^2}{30^2}$ with the both the mass and $\frac{1}{2}$ terms cancelling. 35^2/30^2 = 1.4 . Thus, the new kinetic energy is 1.4x .

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Example Question #1 : Kinetic Energy

A 50g steel ball is in a spring loaded launcher. The spring has a constant of $30\frac{N}{m}$ . If the ball is pulled back 50 cm then released and the ball leaves the launcher at a speed of $10\frac{m}{s}$ , how much work was done by friction?

Possible Answers:

125J

300J

100J

1.25J

25J

Correct answer:

1.25J

Explanation:

So in order to solve this problem, we first should think about where all the energy in the system is coming from and going. Specifically when you pull the spring back, the work you do is turned into potential energy stored in the spring. So:

$W_{pulling spring} = PE$

and the energy transforms into kinetic when you let go, but some of that energy is lost to friction so

$PE = KE + W_{friction}$ and $PE_{spring} = \frac{1}{2} kx^2$

So use the equation below, enter in your known quantities and then solve for the work done by friction.

$\frac{1}{2} kx^2 = \frac{1}{2}mv^2 + W_{friction}$

Plug in known values and solve.

$3.75=2.5+W_{friction}$

$1.25J=W_{friction}$

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Example Question #1 : Conservation Of Momentum And Energy

A toy car is set up on a frictionless track containing a downward sloping ramp and a vertically oriented loop. Assume the ramp is 25cm tall. The car starts at the top of the ramp at rest.

What additional piece of information is necessary to calculate the maximum height of the loop if the car is to complete the loop and continue out the other side?

Possible Answers:

The value of

None

The exact shape of the loop

The distance between the end of the ramp and entrance to the loop

The mass of the car

Correct answer:

None

Explanation:

This is an example of conservation of energy. The car starts at the top of the ramp, at height . It has no velocity at this time since it is starting from a rest. Therefore its total energy is mgh where is the mass of the car and is the value of gravitational acceleration.

At the bottom of the loop, all of the potential energy will have been converted into kinetic energy.

As the car traverses the loop and rises above the ground, kinetic energy will be converted back into potential energy. The shape of the loop does not matter in this case -- only the vertical distance between the ground and the car.

In the tallest possible loop, all kinetic energy at the bottom is converted to potential energy at the top. This is the maximum height the car can reach -- there is no additional energy left to continue climbing a taller loop. Therefore, the potential energy at the top of the tallest loop we can build is equal to the kinetic energy at the bottom of the loop. But we have already noted that the kinetic energy at the bottom of the loop is equal to the potential energy at the top of the ramp.

Therefore, we set $mgh_{ramp} = mgh_{loop}$ . We see that and cancel, and we are left with $h_{ramp} = h_{loop}$ . In other words, the tallest loop you can build is equal to the height of whatever ramp you select. In this example, the tallest loop we can build is 25cm . We do not need to know the specific values of or .

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Example Question #1 : Mechanics

An elevator is designed to hold 600 kg of cargo. The designers want the elevator to be able to go from the ground floor to the top of a 100 m tall building in 20s . What is the minimum amount of power that must be delivered to the motor at the top of the shaft? Assume no friction and that the elevator itself has a negligible weight.

Possible Answers:

29.4 kW

589 kJ

6.0 kW

3.0 kW

589 kW

Correct answer:

29.4 kW

Explanation:

Power is the rate of energy transfer. To raise a 600 kg object 100 m , a total of mgh or ( $(600 kg)(9.81 \frac{m}{s^2})(100 m) = 589 kJ$ is required. To find the power in Watts ( $\frac{J}{s}$ ), we divide the total energy required by the time over which the energy must be transferred:

$P=\frac{589 kJ}{20s} = 29.4 kW$

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Example Question #1 : Work And Energy

How far can a person jump while running at $33 \frac{m}{s}$ and a vertical velocity of $7\frac{m}{s}$ ?

Possible Answers:

4.90m

19.6m

2.45m

54.45m

9.8m

Correct answer:

2.45m

Explanation:

We know that:

$V_{horizontal}=33\frac{m}{s}$

$V_{vertical}=7\frac{m}{s}$

and we are looking for the maximum height (vertical displacement) this person can obtain, so we aren't concerned with $V_{horizontal}$ .

We can apply the conservation of energy:

$\Delta E=0$

$U_{grav}=KE$

$mgh=\frac{1}{2}mv_{vertical}^2$

Masses cancel, so

$gh=\frac{1}{2}v_{vertical}^2$

Solve for :

$h=\frac{1}{2}\frac{v_{vertical}^2}{g}$

$g=10 \frac{m}{s^2}$ (rounded to simplify our calculations)

so let's plug in what we know

$h=\frac{1}{2}*\frac{7^2}{10}=2.45m$ . This is our final answer.

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Example Question #1 : Work And Energy

If a 15kg object has a kinetic energy of 1750J right after it is launched in the air, and it has 65J KE at its max height, what is its max height?

Possible Answers:

2.81m

11.233m

22.466m

5.62m

15.33m

Correct answer:

11.233m

Explanation:

Let's first write down the information we are given:

m=15kg

$KE_{initial}=1750J$

$KE_{maxheight}=65J$

In order to solve this problem we must apply the conservation of energy, which states $\Delta E=0$ since no friction.

This means that as the project reaches its max height energy is converted from Kinetic Energy (energy of motion) to potential gravitational energy (based off of height).

We can subtract $KE_{maxheight}$ from $KE_{initial}$ to get the $PE_{grav}$ at its max height

$PE_{grav}$ = 1750J-65J=1685J

$PE_{grav}$ =mgh

so we can solve for the height

$h=\frac{PE_{grav}}{mg}$

$=\frac{1685}{(15*10)}$

where $g=10\frac{m}{s^2}$

therefore h=11.233m

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Example Question #1 : Work And Energy

If an object has a kinetic energy of 685J right after it is launched in the air, and it has 35J KE at its max height of 15m , what is the object's mass?

Possible Answers:

2.66kg

4.33kg

2.165kg

8.66kg

10.33kg

Correct answer:

4.33kg

Explanation:

Let's first write down the information we are given:

$h_{max}=15m$

$KE_{initial}=685J$

$KE_{maxheight}=35J$

In order to solve this problem we must apply the conservation of energy, which states $\Delta E=0$ since no friction.

This means that as the project reaches its max height energy is converted from Kinetic energy (energy of motion) to potential gravitational energy (based off of height).

We can subtract $KE_{maxheight}$ from $KE_{initial}$ to get the $PE_{grav}$ at its max height

$PE_{grav}$ = 685J-35J=650J

$PE_{grav}$ =mgh

so we can solve for the mass

$m=\frac{PE_{grav}}{hg}$

$=\frac{650}{(15*10)}$

where $g=10\frac{m}{s^2}$

therefore m=4.33kg

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Example Question #1 : Mechanics

A 2kg bouncy ball is dropped from 10 m . When it bounces back up is reaches a height of . How much energy was loss?

$g=10\frac{m}{s^2}$

Possible Answers:

100J

40J

20J

200J

200N

Correct answer:

40J

Explanation:

The formula for gravitational potential energy is:

GPE=mgh

To find the potential energy lost, we need to find the potential energy of the ball at two heights, then find the difference.

$GPE_{before} = 2kg (10\frac{m}{s^2})(10m)$

$GPE_{before} = 200J$

$GPE_{after} = 2kg (10\frac{m}{s^2})(8m)$

$GPE_{after} = 160J$

$GPE_{before} - GPE_{after} = GPE \ lost$

200J- 160J = 40J

Note that the energy was not actually lost; rather, it was converted to kinetic energy.

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Example Question #1 : Gravitational Potential Energy

A baseball weighing 2kg is dropped from a second story window which is 20m high. What is the gravitational potential energy?

$g=10\frac{m}{s^2}$

Possible Answers:

400J

40J

100J

400N

40N

Correct answer:

400J

Explanation:

Gravitational potential energy is given by the equation:

GPE= mgh

We are given all the information needed to solve for the potential energy.

mass=2kg

$g = 10\frac{m}{s^2}$

Height=20m

Plug in known values and solve.

$GPE= 2kg(10\frac{m}{s^2})(20m)$

$GPE = 400\frac{kg\cdot m^2}{s^2}$

GPE = 400J

Recall that the units for energy are Joules. Newtons is the unit for force.

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Example Question #1 : Gravitational Potential Energy

A 15kg bowling ball is released from 10m in the air. What is it's gravitation potential energy upon release?

$g=10\frac{m}{s^2}$

Possible Answers:

100J

500J

1200J

1000J

1500J

Correct answer:

1500J

Explanation:

The equation for gravitational potential energy is:

GPE = mgh

We are given all the information needed to answer the question.

mass = 15kg

$gravity=10\frac{m}{s^2}$

height = 10 m

Plug in known values and solve.

$GPE = 15kg (10\frac{m}{s^2})(10m)$

GPE = 1500J

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College Physics : Mechanics

Study concepts, example questions & explanations for College Physics

All College Physics Resources

Example Questions

Example Question #1 : Work And Energy

Example Question #1 : Kinetic Energy

Example Question #1 : Conservation Of Momentum And Energy

Example Question #1 : Mechanics

Example Question #1 : Work And Energy

Example Question #1 : Work And Energy

Example Question #1 : Work And Energy

Example Question #1 : Mechanics

Example Question #1 : Gravitational Potential Energy

Example Question #1 : Gravitational Potential Energy

All College Physics Resources

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