All AP Physics 1 Resources
Example Questions
Example Question #61 : Motion In One Dimension
A car traveling at sees a red light ahead and begins to slow down. The gas pedal is not touched until after the car has left the intersection. It takes to reach the light, which turns green again before the car comes to a complete stop. At this point the car rolls through the intersection at . What was the car's acceleration during this time?
The equation for acceleration is . The final velocity minus the initial velocity is and the change in time is . When dividing the change in velocity by the change in time you receive the answer which means that the car is decelerating due to the negative sign.
Example Question #61 : Motion In One Dimension
While riding a bike down a steep hill at you skid to a stop in 3.2 seconds. How far did the bike slide? Assume uniform acceleration.
Example Question #332 : Ap Physics 1
A motorcycle accelerated from rest to over a distance of 50 meters. What is the rider's acceleration?
None of these.
To find the acceleration, use the kinematic equation
*the rider's acceleration will match that of the motorcycle.
Example Question #301 : Newtonian Mechanics
A quarterback throws a football a horizontal distance of to a wide receiver. The ball was airborne for . The ball had an initial speed of . The ball has a mass of .
Determine the maximum height of the football.
None of these
Determining horizontal component of velocity:
Using
Solving for
Combining equations
Converting to
Converting yards to meters
Plugging in values:
The ball will be at it's maximum height when the component of it's velocity, and thus that direction of kinetic energy, is zero.
The velocity will be decreased by the negative work done by gravity.
Plugging in values:
Solving for
Example Question #61 : Linear Motion And Momentum
A projectile is fired at a wall with a speed of . It penetrates the wall to a distance of 0.053 meters before stopping. What is the acceleration of the projectile within the wall? Assume uniform acceleration.
Use the kinematic equation .
Negative acceleration because the projectile was slowing down.
Example Question #65 : Motion In One Dimension
A motorcycle must be traveling at before leaving the end of a platform to clear a particular jump. If the motorcycle accelerates down the length of the ramp at for 5 seconds will it clear the jump?
No, it will be moving slower than necessary
Yes, it will be moving faster than necessary
No, it will be moving slower than necessary
There is not enough information to determine
Yes, it will be moving faster than necessary
Yes, it will be moving faster than necessary
To find its speed before leaving the ramp,.
Yes, it will be moving faster than necessary.
Example Question #341 : Ap Physics 1
You discover an old well in the forest behind your house. In order to ascertain its depth you drop a rock which falls straight down to the surface of the water. How deep is the well if it takes 5 seconds for the rock to hit the water (neglecting air resistance and the time it took for the sound to travel)?
None of these
Use the kinematic equation .
Since the object was dropped and starts at position 0 in the hand, the first two terms initial position and initial velocity become 0.
Example Question #62 : Linear Motion And Momentum
A theme park ride raises the participants to a bird's eye view and then drops them. If it take 3 seconds for the ride to reach its stopping position below, what was the final speed before coming to a halt just above the ground? Ignore frictional forces.
Since the object is just falling it is only subject to the acceleration of gravity (especially since we are ignoring frictional forces).
So the final speed is equal to the time multiplied by the acceleration of gravity:
Example Question #68 : Motion In One Dimension
A man stands on a building above the ground. He reaches over the side and throws an apple straight up with at a speed of .
How long does it take for the apple to hit the ground below?
The apple is flying straight up with an initial velocity of , with the only force acting on it being gravity. Gravity will provide the apple with an acceleration of directed downwards. The following kinematic equation is needed to solve for the time it takes for the apple to hit the ground:
The first step is to see how long it takes the apple to get to the highest point of its journey. At that point, the velocity will have slowed to zero:
Solving for t gives us:
Since it took the apple 2.04 seconds to get to the top, that means it will take the apple another 2.04 seconds to get back to its starting point. This also means that the velocity of the apple when it reaches is starting point will be equal and opposite its starting velocity:
To find the amount of time it takes the apple to reach the ground, the following kinematic equations are used:
And:
Therefore, the total time it takes for the apple to reach the ground is:
Example Question #69 : Motion In One Dimension
Mark, Jim, and David apply forces to an object of mass . The object is on level ground where the coefficient of friction is . Mark applies a force to the right, Jim applies a force to the left, and David applies a force down. How far will the object travel (in meters) after seconds? Assume it starts at rest and the coefficient of static friction is low enough for the object to start moving with the mentioned forces.
We can split this question up into the x-direction and y-direction. In the y-direction, the object's acceleration is zero since it's going to remain in contact with the ground. We now can write our equation (let the up direction be positive). Since it's not accelerating, we have
.
denotes the normal force. We know that the mass is and that , so we can solve for the normal force, which we'll later use to find the force of friction.
The force of friction is equal to (where denotes the coefficient of friction), so
In the x-direction, we'll denote right as positive. The forces in the x-direction are right, left, and . Now we can write our equation as
Using this acceleration, we can use kinematics to solve for the distance the object will travel in seconds. We have time and acceleration, but we need distance, so we'll use the equation: