High School Physics : Specific Forces

Study concepts, example questions & explanations for High School Physics

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Example Questions

Example Question #501 : High School Physics

Erin pushes a  cabinet across the floor. If it requires  of force, what is the coefficient of kinetic friction?

Possible Answers:

Correct answer:

Explanation:

The problem gives us the minimum force required to move the cabinet. That means the force Erin exerts will be equal to the force due to friction, but moving in the opposite direction. 

.

From here, expand the right side using the formula for kinetic friction and normal force.

Use the given values for the force, mass, and acceleration of gravity to solve for the coefficient of friction.

Example Question #1 : Understanding Frictional Force

It takes of force to move a block from rest. Assuming no outside forces act upon the block, what is the coefficient of static friction?

Possible Answers:

Correct answer:

Explanation:

The force due to friction on a level surface is the product of the normal force and the coefficient of friction:

We are told the force required to move the block, which will be equal to the force of friction, and the mass of the block. Use the mass of the block to calculate the normal force.

Use the normal force and the force of friction to solve for the coefficient of friction.

 

Example Question #4 : Understanding Frictional Force

Which of the following cannot be true of an object on a given surface?

Possible Answers:

Static friction:

Kinetic friction:

Static friction:

Kinetic friction:

Static friction:

Kinetic friction:

Static friction:

Kinetic friction:

Static friction:

Kinetic friction:

Correct answer:

Static friction:

Kinetic friction:

Explanation:

Kinetic friction is never greater than static friction. More force is always requires to overcome static friction than is required to overcome kinetic friction. It can require a large force to initiate motion, causing an initial acceleration by overcoming static friction. Once motion has begun, however, less for is required to maintain the motion due to the principles of Newton's first law and inertia.

Example Question #31 : Forces

Michael lands on a new planet. If his mass is  and the acceleration due to gravity on this planet is , what would his weight be?

Possible Answers:

Correct answer:

Explanation:

Weight is a particular force that is equal to mass times acceleration due to gravity. Start with Newton's second law, .

Plug in the given values to solve.

Example Question #502 : High School Physics

Leslie is an astronaut on a new planet. She knows her mass is , and she can calculate her weight on the planet to be . What is the acceleration due to gravity on the new planet?

Possible Answers:

Correct answer:

Explanation:

Weight is a specific force. It is always equal to the mass times acceleration due to gravity:.

Plug in the given values to solve for the acceleration.

The gravitational acceleration is negative because it acts in the downward direction.

Example Question #3 : Understanding Gravity And Weight

Jenny calculates that her weight on Earth is equal to . Assuming acceleration due to gravity on earth is equal to , what is her mass?

Possible Answers:

Correct answer:

Explanation:

Weight is a specific force that is always equal to mass times acceleration due to gravity.

Start with Newton's second law: .

Plug in the given values to solve for the mass.

Example Question #2 : Understanding Gravity And Weight

Jerry wants to lift a  ball with exactly enough force so that it's upward velocity is constant. How much force should he use?

Possible Answers:

Correct answer:

Explanation:

If the velocity on an object is constant, that means it has no acceleration. If it has no acceleration, that means that the net force on the object is equal to zero. We can see this conclusion by using Newton's second law.

Another way to think of  is the sum of all the forces. Since the only two forces acting upon the ball are gravity and Jerry's lifting force, we can see: .

Since the net force is zero, the magnitude of Jerry's force must equal the magnitude of the force of gravity, but in the opposite direction.

This means that once we find , then Jerry's lifting force will be the same magnitude but in the opposite direction. Use Newton's second law to find the force of gravity.

This means that Jerry's lifting force will be .

Example Question #33 : Forces

The acceleration of gravity on the moon is significantly less than the acceleration of gravity on earth. What will happen to an astronaut's weight and mass on the moon, compared to her weight and mass on Earth?

Possible Answers:

Her weight and mass will remain the same

Her weight and mass will decrease

Her weight will decrease and her mass will remain the same

Her weight will increase, but her mass will decrease

Her weight will remain the same and her mass will decrease

Correct answer:

Her weight will decrease and her mass will remain the same

Explanation:

Mass is a measure of how much matter is in an object, while weight is a measurement of the effective force of gravity on the object.

The amount of matter in the astronaut does not change; therefore, she has the same mass on the moon as she has on Earth.

Her weight, however, will change due to the change in gravity. The force of gravity will be the product of the acceleration and the astronaut's mass.

If the gravity is less on the moon than on Earth, then the force of gravity on the astronaut will also be less on the moon; thus, she will weigh less.

Example Question #1 : Understanding Gravity And Weight

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If the mass of the object is  and , what is the value of W?

Possible Answers:

Correct answer:

Explanation:

W will be the weight of the object. Weight is a very specific force: it is the mass times gravity. As it turns out, the angle is irrelevant in finding weight.

Using Newton's second law and the given values for mass and gravity, we can solve for W.

Note that the weight is negative, because it is acting in the downward direction.

Example Question #35 : Forces

An astronaut lands on a new planet and discovers her weight on this planet is half of her weight on Earth. What is the acceleration due to gravity on this planet in terms of the acceleration due to gravity on Earth ()?

Possible Answers:

We need to know her mass in order to solve

Correct answer:

Explanation:

Weight is a very specific force, equal to the mass times gravity:

On this new planet her weight is half of what it was on Earth. We can write this mathematically, using the weight equation.

Mass cancels out from each side, leaving a relationship between the gravitational accelerations.

That means the acceleration due to gravity on this new planet is half of what it was on earth.

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