College Physics : Forces

Study concepts, example questions & explanations for College Physics

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Example Questions

Example Question #1 : Forces

A juggler throws a ball straight up into the air, which exerts air resistance on the ball. Which of the following best describes the speed of the ball after it falls and just reaches the juggler's hand?

Possible Answers:

The speed of the ball is greater than when it was released.

The speed of the ball is zero.

None of the other answers.

The speed of the ball is exactly the same as when it was released.

The speed of the ball is less than when the juggler first threw it.

Correct answer:

The speed of the ball is less than when the juggler first threw it.

Explanation:

Air resistance is like a friction force that takes energy away from the ball. Because the ball has energy taken from it on the way up and the way down, there is net negative work done on the ball. The energy of the ball is not conserved and it slows down slightly compared to when it was released.

Example Question #1 : Newton's Laws And Fundamental Concepts

A  cinder block sitting on a frictionless surface is attached to a rope. If the rope is pulled parallel to the surface such that the block accelerates at a rate of , what is the minimum amount of tension the rope must be able to support without breaking?

Possible Answers:

Correct answer:

Explanation:

This is a simple case of . In this instance,  is  and  is . Substituting, we find .

Example Question #1 : Newton's Laws And Fundamental Concepts

A  cinder block sitting on the ground is attached to a rope. If the rope is pulled such that the block accelerates directly upwards at a rate of , what is the minimum amount of tension the rope must be able to support without breaking?

Possible Answers:

Correct answer:

Explanation:

In this case, the rope must be able to support both the force of gravity and the force required to accelerate the block. Both are given by :

Example Question #3 : Newton's Laws And Fundamental Concepts

 object experiences a force of  in its direction of motion for . What is the change in the velocity the object moved at during this time? 

Possible Answers:

Correct answer:

Explanation:

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

We know that . This equation can simplified to   since acceleration is equal to velocity over time so .

Let's manipulate the equation by solving for velocity so we can simply plug in the numbers we are given:

so: 

 which is our final answer.

Example Question #4 : Newton's Laws And Fundamental Concepts

 experiences a net force that increases its velocity by    from rest for . What is the magnitude of this force?

Possible Answers:

Correct answer:

Explanation:

Let's write down the information we are given:

We know that . This equation can simplified to    since acceleration is equal to velocity over time so  .

So we can just plug in the information we are given to solve for the Force:

, which is our final answer.

Example Question #5 : Newton's Laws And Fundamental Concepts

An object is pushed from rest with a force of   that increases its velocity by  for . What is the mass of this object?

Possible Answers:

Correct answer:

Explanation:

Let's write down the information we are given:

We know that . This equation can simplified to    since acceleration is equal to velocity over time so .

So we can solve for  in this equation:

, which is our final answer.

Example Question #3 : Forces

An hourglass is placed on a scale with all its sand in the upper chamber. A short time later, the sand begins to fall into the lower chamber. Which of the following best describes the reading on the scale as a function of time before any sand has accumulated in the bottom chamber?

Possible Answers:

The reading on the scale increases.

The reading on the scale stays the same.

The reading on the scale is zero.

The reading on the scale decreases slightly.

None of these

Correct answer:

The reading on the scale decreases slightly.

Explanation:

Initially, when all the sand is in the upper chamber, the reading on the scale is constant and corresponds to the weight of the hourglass and the sand within. As some sand falls, there is no normal force on it so the scale can not register its weight. The fraction of sand that is falling is small, so there is only a small decrease in the apparent weight of the hourglass.

Example Question #6 : Newton's Laws And Fundamental Concepts

A block which weighs  experiences a resultant force of  that increases its velocity by . How long did this force act on the block?

Possible Answers:

Correct answer:

Explanation:

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

We know that . This equation can simplified to  since acceleration is equal to velocity over time so .

Let's manipulate the equation by solving for time so we can simply plug in the numbers we are given:

so: 

= which is our final answer.

Example Question #4 : Forces

Two small lead balls of masses  and  are fixed a distance  apart on a laboratory bench. A student moves the larger mass toward the smaller mass so the distance is now only . After the mass was moved, by what factor did the gravitational force between the lead balls change?

Possible Answers:

Correct answer:

Explanation:

The gravitational force obeys an inverse-square law. Decreasing the distance by a factor of  will increase the force by a factor of , or .

Example Question #1 : Forces

Which of these equations is the universal gravitational equation?

Possible Answers:

Correct answer:

Explanation:

 is the equation for Universal gravitation.

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