All AP Physics 1 Resources
Example Questions
Example Question #282 : Forces
A force is applied to a block sitting on a sheet of ice. What is the acceleration of the block?
We begin by drawing a free body diagram of the block.
is the force applied to the block.
is the weight of the block, or the force due to gravity. Weight is defined as where is the mass of the block and is the gravitational constant.
is the normal force acting perpendicular to the contact surface.
Since the block is on ice, there is no friction.
We now apply Newton's second law in the direction of acceleration. In this problem, that is the x-direction.
Newton's second law is where is the net force applied in the direction of acceleration, is the mass of the block and is the acceleration.
Solving for acceleration, we have
The only force in the direction of acceleration is the applied force , therefore
. The problem tells us . Substituting in this information gives us
Example Question #284 : Forces
A force is applied to a block causing it to accelerate at across a sheet of ice. What is the mass of the block?
We begin by drawing a free body diagram of the block.
is the force applied to the block.
is the weight of the block, or the force due to gravity. Weight is defined as where is the mass of the block and is the gravitational constant.
is the normal force acting perpendicular to the contact surface.
Since the block is on ice, there is no friction.
We now apply Newton's second law in the direction of acceleration. In this problem, that is the x-direction.
Newton's second law is where is the net force applied in the direction of acceleration, is the mass of the block and is the acceleration.
Solving for mass, we have
The only force in the direction of acceleration is the applied force , therefore
. The problem tells us . Substituting in this information gives us
Example Question #41 : Newton's Second Law
A block accelerates at across a sheet of ice. How much force was applied to the block?
We begin by drawing a free body diagram of the block.
is the force applied to the block.
is the weight of the block, or the force due to gravity. Weight is defined as where is the mass of the block and is the gravitational constant.
is the normal force acting perpendicular to the contact surface.
Since the block is on ice, there is no friction.
We now apply Newton's second law in the direction of acceleration. In this problem, that is the x-direction.
Newton's second law is .
Where is the net force applied in the direction of acceleration, is the mass of the block and is the acceleration.
The only force in the direction of acceleration is the applied force , therefore . The problem tells us and . Substituting in this information gives us:
Example Question #286 : Forces
A block accelerates at across a sheet of ice. How much force was applied to the block?
We begin by drawing a free body diagram of the block.
is the force applied to the block.
is the weight of the block, or the force due to gravity. Weight is defined as where is the mass of the block and is the gravitational constant.
is the normal force acting perpendicular to the contact surface.
Since the block is on ice, there is no friction.
We now apply Newton's second law in the direction of acceleration. In this problem, that is the x-direction.
Newton's second law is .
Where is the net force applied in the direction of acceleration, is the mass of the block and is the acceleration.
The only force in the direction of acceleration is the applied force , therefore . The problem tells us and . Substituting in this information gives us
Example Question #61 : Fundamentals Of Force And Newton's Laws
A force is applied to a block sitting on concrete. The coefficient of friction of concrete is . What is the acceleration of the block?
We begin by drawing a free body diagram of the block.
is the force applied to the block.
is the weight of the block, or the force due to gravity. Weight is defined as where is the mass of the block and is the gravitational constant.
is the normal force acting perpendicular to the contact surface.
is the force due to kinetic friction. Friction is defined as where is the coefficient of friction.
To find the force due to friction, we need to find by applying Newton's second in the y-direction.
Newton's second law is where is the net force, is the mass of the block and is the acceleration.
There are two forces in the y-direction, and . There are in opposite directions, so they are subtracted. We are given . There is no acceleration in the y-direction, so .
Substituting all this information into Newton's second law gives us
Assuming ,
.
Now that we have , we can find the force due to friction. Given that and ,
We now apply Newton's second law in the direction of acceleration. In this problem, that is the x-direction.
Solving for acceleration, we have
There are two forces in the direction of acceleration,the applied force and the force due to friction . Assuming that is applied in the direction of acceleration and is in the opposite direction,
. The problem tells us . Substituting in this information gives us
Example Question #285 : Forces
A force is applied to a block sitting on wood. The coefficient of friction of wood is . What is the acceleration of the block?
We begin by drawing a free body diagram of the block.
is the force applied to the block.
is the weight of the block, or the force due to gravity. Weight is defined as where is the mass of the block and is the gravitational constant.
is the normal force acting perpendicular to the contact surface.
is the force due to kinetic friction. Friction is defined as where is the coefficient of friction.
To find the force due to friction, we need to find by applying Newton's second in the y-direction.
Newton's second law is where is the net force, is the mass of the block and is the acceleration.
There are two forces in the y-direction, and . There are in opposite directions, so they are subtracted. We are given . There is no acceleration in the y-direction, so .
Substituting all this information into Newton's second law gives us:
Assuming
Now that we have , we can find the force due to friction. Given that and ,
We now apply Newton's second law in the direction of acceleration. In this problem, that is the x-direction.
Solving for acceleration, we have
There are two forces in the direction of acceleration,the applied force and the force due to friction . Assuming that is applied in the direction of acceleration and is in the opposite direction,
. The problem tells us . Substituting in this information gives us
Example Question #51 : Newton's Second Law
A force is applied to a block causing it to accelerate at across concrete. The friction acts with of force. What is the mass of the block?
We begin by drawing a free body diagram of the block.
is the force applied to the block.
is the weight of the block, or the force due to gravity. Weight is defined as where is the mass of the block and is the gravitational constant.
is the normal force acting perpendicular to the contact surface.
is the force due to kinetic friction.
Newton's second law is where is the net force, is the mass of the block and is the acceleration.
We now apply Newton's second law in the direction of acceleration. In this problem, that is the x-direction.
Solving for mass, we have
There are two forces in the direction of acceleration,the applied force and the force due to friction . Assuming that is applied in the direction of acceleration and is in the opposite direction,
. The problem tells us . Substituting in this information gives us
Example Question #51 : Newton's Second Law
A force is applied to a block causing it to accelerate at across wood. The friction acts with of force. What is the mass of the block?
We begin by drawing a free body diagram of the block.
is the force applied to the block.
is the weight of the block, or the force due to gravity. Weight is defined as where is the mass of the block and is the gravitational constant.
is the normal force acting perpendicular to the contact surface.
is the force due to kinetic friction.
Newton's second law is where is the net force, is the mass of the block and is the acceleration.
We now apply Newton's second law in the direction of acceleration. In this problem, that is the x-direction.
Solving for mass, we have
There are two forces in the direction of acceleration,the applied force and the force due to friction . Assuming that is applied in the direction of acceleration and is in the opposite direction,
. The problem tells us . Substituting in this information gives us
Example Question #71 : Fundamentals Of Force And Newton's Laws
A block accelerates at across concrete. The coefficient of friction of concrete is . How much force was applied to the block?
We begin by drawing a free body diagram of the block.
is the force applied to the block.
is the weight of the block, or the force due to gravity. Weight is defined as where is the mass of the block and is the gravitational constant.
is the normal force acting perpendicular to the contact surface.
is the force due to kinetic friction. Friction is defined as where is the coefficient of friction.
To find the force due to friction, we need to find by applying Newton's second in the y-direction.
Newton's second law is where is the net force, is the mass of the block and is the acceleration.
There are two forces in the y-direction, and . There are in opposite directions, so they are subtracted. We are given . There is no acceleration in the y-direction, so .
Substituting all this information into Newton's second law gives us
Assuming ,
Now that we have , we can find the force due to friction. Given that and
We now apply Newton's second law in the direction of acceleration. In this problem, that is the x-direction.
There are two forces in the direction of acceleration,the applied force and the force due to friction . Assuming that is applied in the direction of acceleration and is in the opposite direction,
. The problem tells us and . Substituting this information into Newton's second law gives us
Example Question #71 : Fundamentals Of Force And Newton's Laws
A block accelerates at across wood. The coefficient of friction wood is . How much force was applied to the block?
We begin by drawing a free body diagram of the block.
is the force applied to the block.
is the weight of the block, or the force due to gravity. Weight is defined as where is the mass of the block and is the gravitational constant.
is the normal force acting perpendicular to the contact surface.
is the force due to kinetic friction. Friction is defined as where is the coefficient of friction.
To find the force due to friction, we need to find by applying Newton's second in the y-direction.
Newton's second law is where is the net force, is the mass of the block and is the acceleration.
There are two forces in the y-direction, and . There are in opposite directions, so they are subtracted. We are given . There is no acceleration in the y-direction, so .
Substituting all this information into Newton's second law gives us
Assuming ,
Now that we have , we can find the force due to friction. Given that and ,
We now apply Newton's second law in the direction of acceleration. In this problem, that is the x-direction.
There are two forces in the direction of acceleration, the applied force and the force due to friction . Assuming that is applied in the direction of acceleration and is in the opposite direction,
. The problem tells us and . Substituting this information into Newton's second law gives us
Certified Tutor
Certified Tutor