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AP Physics C: Mechanics : Work, Energy, and Power

Study concepts, example questions & explanations for AP Physics C: Mechanics

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2 Diagnostic Tests 92 Practice Tests Question of the Day Flashcards Learn by Concept

Example Questions

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Example Question #1 : Energy

An object has a mass of 5kg and has a position described by the given function:

x(t)=2x^2-5x+12

What is the object's kinetic energy after two seconds?

Possible Answers:

27.5J

22.5J

7.5J

45.2J

Correct answer:

22.5J

Explanation:

Kinetic energy is defined by the equation:

$KE=\frac{1}{2}mv^2$

Taking the derivative of the position function allows us to obtain the velocity function:

x'(t)=v(t)=4x-5

We can now determine the velocity after two seconds:

v(2)=4(2)-5=3

Now that we know our velocity, we can solve for the kinetic energy.

$KE=\frac{1}{2}(5kg)(3\frac{m}{s})^2=22.5J$

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Example Question #21 : Work, Energy, And Power

An object starts from rest and accelerates at a rate of $2.5\frac{m}{s^2}$ . If the object has a mass of 10kg, what is its kinetic energy after three seconds?

Possible Answers:

562.64J

75J

226.5J

281.25J

Correct answer:

281.25J

Explanation:

Kinetic energy is given by the equation:

$KE=\frac{1}{2}mv^2$

We can find the velocity using the given acceleration and time:

$v=v_o+a\Delta t$

$v=0\frac{m}{s}+(2.5\frac{m}{s^2})(3s)=7.5\frac{m}{s}$

Use this velocity to find the kinetic energy after three seconds:

$KE=\frac{1}{2}(10kg)(7.5\frac{m}{s})^2=281.25J$

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Example Question #1 : Kinetic Energy

A 120kg box has a kinetic energy of 2300J. What is its velocity?

Possible Answers:

$7.2\frac{m}{s}$

$40.1\frac{m}{s}$

$6.2\frac{m}{s}$

$38.3\frac{m}{s}$

$19.4\frac{m}{s}$

Correct answer:

$6.2\frac{m}{s}$

Explanation:

The formula for kinetic energy of an object is:

$KE=\frac{1}{2}mv^2$

The problem gives us the mass and the kinetic energy, and asks for the velocity, so we can rearrange the equation:

$v=\sqrt{\frac{2KE}{m}}$

Use our given values for kinetic energy and mass to solve:

$v=\sqrt{\frac{2(2300J)}{120kg}}=6.2\frac{m}{s}$

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Example Question #1 : Energy

Calculate how much potential energy a vertical standing spring gains if someone puts a 4kg box on top of it. Take the spring constant to be 120N/s.

Possible Answers:

3.0J

6.5 J

8.9 J

8.0J

12.2 J

Correct answer:

6.5 J

Explanation:

First, find out how much the spring compresses when the 4kg box is put on top of it. To find this, consider what forces are acting on the box when it is resting on the spring. The forces acting on it are the upward spring force, , and the downward gravitational force,; thus, the net force acting on the box is given by the equation below.

$F_{net}=F_s-F_g=-kx-mg=0$

We have chosen the upward direction to be positive and the downward direction to be negative. The net force is equal to zero because the box is at rest. Solve for x.

$x=-\frac{mg}{k}$

$x=-\frac{(4\ kg)(-9.8\ \frac{m}{s^2})}{120\ \frac{N}{m}}$

$x=0.33\ \text{m}$

Then use this value to find the potential energy of the spring.

$U=\frac{1}{2}kx^2$

$U=\frac{1}{2}(120\ \frac{N}{m})(0.33\ m)^2$

$U=6.5\ J$

So when the box is placed on top of the spring, the spring gains a potential energy of 6.5J.

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Example Question #11 : Energy

A man throws a 5kg ball straight up. At the top of its trajectory, the ball has a potential energy of 160 Joules. What is the highest point the ball reaches if it is thrown from the level of the ground?

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

Possible Answers:

14.4m

3.2m

4.8m

6.4m

10.5m

Correct answer:

3.2m

Explanation:

The equation for potential energy is:

PE=mgh

We can rearrange to solve for the height:

$h=\frac{PE}{mg}$

Plug in our given values to solve:

$h=\frac{160J}{(5kg)(10\frac{m}{s^2})}=3.2m$

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Example Question #21 : Work, Energy, And Power

A man throws a 5kg ball straight up. At the top of its trajectory, the ball has a potential energy of 160 Joules. At what velocity does the man initially throw the ball?

Possible Answers:

$5\frac{m}{s}$

$8\frac{m}{s}$

$24\frac{m}{s}$

$16\frac{m}{s}$

$10\frac{m}{s}$

Correct answer:

$8\frac{m}{s}$

Explanation:

We can use conservation of energy to find the velocity required to launch the ball.

$KE= \frac{1}{2}mv^2$

$PE = KE \rightarrow 160 = \frac{1}{2}mv^2$

320 = (5)v^2

v^2 = 64

$v = 8\ \frac{m}{s}$

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Example Question #21 : Work, Energy, And Power

$G \approx (20/3) *10^{-11} \ \frac{m^3}{kg*s^2}, \quad M_{earth} \approx 6*10^{24}\ kg, \quad R_{earth} \approx 6000 \ km$

A man launches a 5kg ball straight up from sea level. Disregarding drag, if the man would like to launch the ball into an escape trajectory from earth's gravity, approximately how fast must he launch the ball (in meters per second)?

$G=6.67*10^{-11}\frac{m^3}{s^2kg}$

$M_E=6*10^{24}kg$

r_E=6*10^6m

Possible Answers:

$11000\frac{m}{s}$

$7000\frac{m}{s}$

$44000\frac{m}{s}$

$21000\frac{m}{s}$

$5000\frac{m}{s}$

Correct answer:

$11000\frac{m}{s}$

Explanation:

In order to launch the ball at a velocity that escapes Earth's gravity, the kinetic energy must overcome the gravitational pull of the Earth. We can use conservation of energy to make the kinetic energy and gravitational potential energies equivalent.

$KE_{escape} = \frac{1}{2}m v_{escape}^2$

$U_{gravitational} = \frac{GMm}{r}$

$KE_{e} = U_{g}$

$\frac{1}{2}mv_{e}^2= \frac{GMm}{r}$

Rearrange to solve for the escape velocity:

$v_e = \sqrt{\frac{2GM}{r}}$

Finally, plug in our values and solve.

$v_e= \sqrt{\frac{2(6.67*10^{-11})(6*10^{24})}{6*10^6}}$

$v_e=\sqrt{\frac{72}{6}*10^{7}} =\sqrt{1.2*10^{8}} \approx\sqrt{121*10^{6}} = 11000\ \frac{m}{s}$

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AP Physics C: Mechanics : Work, Energy, and Power

Study concepts, example questions & explanations for AP Physics C: Mechanics

All AP Physics C: Mechanics Resources

Example Questions

Example Question #1 : Energy

Example Question #21 : Work, Energy, And Power

Example Question #1 : Kinetic Energy

Example Question #1 : Energy

Example Question #11 : Energy

Example Question #21 : Work, Energy, And Power

Example Question #21 : Work, Energy, And Power

All AP Physics C: Mechanics Resources

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