Question
Question 1 (1 point)
Jericho hits a golf ball across a golf course. Which statement describes the movement of the golf ball? Select all that apply.
a
Its movement shows Newton's second law of motion.
b
Its movement is due to balanced forces.
c
Its movement occurs because forces on all sides of the ball are equal.
d
Its movement occurs due to unbalanced forces.
e
Its movement is not affected by friction in the air.
f
Its movement is not affected if it hits another object.
Question 2 (3 points)
The image shows a box moving at constant speed along a frictional surface, where is the force of motion and is the force of friction.
Match the relative forces to the effect on the motion of the box.
Column A
1.
F1 has a greater magnitude than F2.:
F1 has a greater magnitude than F2.
2.
F1 has a lesser magnitude than F2.:
F1 has a lesser magnitude than F2.
3.
F1 has the same magnitude as F2.:
F1 has the same magnitude as F2.
Column B
a.The box will speed up.
b.The box will slow down.
c.The box will maintain its speed.
Question 3 (1 point)
Which statement best describes the forces required to move the box to the right?
c977eb14-1576-4a9d-84b7-36c17d46e9c9
a
The forces must be balanced with the force from the left and right being the same.
b
The forces must be unbalanced with the force from the right greater than the force from the left.
c
The forces must be balanced with the force from the left greater than the force from the right.
d
The forces must be balanced with the force from the right greater than the force from the left.
Question 4 (1 point)
The diagram shows a box with forces pulling it to the right and up.
Which diagram best shows the forces which need to be added to balance the box?
a
36c7dbbb-9d47-451f-823a-70bd012e461c
b
5de6c980-16c2-4fbc-9f0f-51c86fa40c6b
c
a6d9b350-a6f8-4fdf-8dd5-76157d37f688
d
d711d4a1-3b22-4af8-93ba-79d303bfe866
Question 5 (1 point)
A water rocket uses an amount of water and pressurized air to send a plastic rocket several feet into the air. As the water and air rush out the tail end of the rocket, the rocket shoots into the air.
Which statement explains the rocket's motion?
a
The force of gravity of the rocket is greater than the water.
b
The inertia of the water and air must be overcome.
c
The force of gravity must be overcome to achieve lift.
d
For every action there is an equal and opposite reaction.
Question 6 (1 point)
The picture shows Haile's paper airplane flying through the air.
image cdd5dbe9225f417384eccf9d78798f6d
Haile's plane travels forward for a few feet and then begins to fall. What would explain the plane's ability to travel forward for a few feet without falling?
a
The speed of the plane is greater than the speed of the oncoming air that pushes on the plane.
b
The force of the air pushing up on the plane is equal to the force of gravity pulling down on the plane.
c
The force of gravity pulling down on the plane is greater than the force of the air pushing up on the plane.
d
The speed of the plane is equal to the speed of the oncoming air that pushes on the plane.
Question 7 (1 point)
Alicia designs a remote-controlled car. She drives it on the kitchen tile, bedroom carpet, outdoor grass, and concrete driveway. She times how long it takes for her car to travel five feet on each of the four surfaces. She pushes the drive button all the way forward for each trial. What is Alicia's experiment designed to test?
a
How will the type of surface affect the distance the car travels?
b
How will the type of surface affect the car's speed?
c
What type of surface will have the most gravitational force on the car?
d
What type of car will go the fastest on grass?
Question 8 (1 point)
The picture below is of Kerrick holding an apple in his hand.
Why does the force of gravity NOT pull the apple to the ground?
a
The force of Kerrick’s hand pushing up on the apple is equal to the force of gravity pulling down on the apple. Since the forces are unbalanced, the apple does not move.
b
The force of Kerrick's hand pushing up on the apple is greater than the force of gravity pulling down on the apple. Since the forces are unbalanced, the apple does not move.
c
The force of Kerrick’s hand pushing up on the apple is equal to the force of gravity pulling down on the apple. Since the forces are balanced, the apple does not move.
d
The force of Kerrick's hand pushing up on the apple is greater than the force of gravity pulling down on the apple. Since the forces are balanced, the apple does not move.
Jericho hits a golf ball across a golf course. Which statement describes the movement of the golf ball? Select all that apply.
a
Its movement shows Newton's second law of motion.
b
Its movement is due to balanced forces.
c
Its movement occurs because forces on all sides of the ball are equal.
d
Its movement occurs due to unbalanced forces.
e
Its movement is not affected by friction in the air.
f
Its movement is not affected if it hits another object.
Question 2 (3 points)
The image shows a box moving at constant speed along a frictional surface, where is the force of motion and is the force of friction.
Match the relative forces to the effect on the motion of the box.
Column A
1.
F1 has a greater magnitude than F2.:
F1 has a greater magnitude than F2.
2.
F1 has a lesser magnitude than F2.:
F1 has a lesser magnitude than F2.
3.
F1 has the same magnitude as F2.:
F1 has the same magnitude as F2.
Column B
a.The box will speed up.
b.The box will slow down.
c.The box will maintain its speed.
Question 3 (1 point)
Which statement best describes the forces required to move the box to the right?
c977eb14-1576-4a9d-84b7-36c17d46e9c9
a
The forces must be balanced with the force from the left and right being the same.
b
The forces must be unbalanced with the force from the right greater than the force from the left.
c
The forces must be balanced with the force from the left greater than the force from the right.
d
The forces must be balanced with the force from the right greater than the force from the left.
Question 4 (1 point)
The diagram shows a box with forces pulling it to the right and up.
Which diagram best shows the forces which need to be added to balance the box?
a
36c7dbbb-9d47-451f-823a-70bd012e461c
b
5de6c980-16c2-4fbc-9f0f-51c86fa40c6b
c
a6d9b350-a6f8-4fdf-8dd5-76157d37f688
d
d711d4a1-3b22-4af8-93ba-79d303bfe866
Question 5 (1 point)
A water rocket uses an amount of water and pressurized air to send a plastic rocket several feet into the air. As the water and air rush out the tail end of the rocket, the rocket shoots into the air.
Which statement explains the rocket's motion?
a
The force of gravity of the rocket is greater than the water.
b
The inertia of the water and air must be overcome.
c
The force of gravity must be overcome to achieve lift.
d
For every action there is an equal and opposite reaction.
Question 6 (1 point)
The picture shows Haile's paper airplane flying through the air.
image cdd5dbe9225f417384eccf9d78798f6d
Haile's plane travels forward for a few feet and then begins to fall. What would explain the plane's ability to travel forward for a few feet without falling?
a
The speed of the plane is greater than the speed of the oncoming air that pushes on the plane.
b
The force of the air pushing up on the plane is equal to the force of gravity pulling down on the plane.
c
The force of gravity pulling down on the plane is greater than the force of the air pushing up on the plane.
d
The speed of the plane is equal to the speed of the oncoming air that pushes on the plane.
Question 7 (1 point)
Alicia designs a remote-controlled car. She drives it on the kitchen tile, bedroom carpet, outdoor grass, and concrete driveway. She times how long it takes for her car to travel five feet on each of the four surfaces. She pushes the drive button all the way forward for each trial. What is Alicia's experiment designed to test?
a
How will the type of surface affect the distance the car travels?
b
How will the type of surface affect the car's speed?
c
What type of surface will have the most gravitational force on the car?
d
What type of car will go the fastest on grass?
Question 8 (1 point)
The picture below is of Kerrick holding an apple in his hand.
Why does the force of gravity NOT pull the apple to the ground?
a
The force of Kerrick’s hand pushing up on the apple is equal to the force of gravity pulling down on the apple. Since the forces are unbalanced, the apple does not move.
b
The force of Kerrick's hand pushing up on the apple is greater than the force of gravity pulling down on the apple. Since the forces are unbalanced, the apple does not move.
c
The force of Kerrick’s hand pushing up on the apple is equal to the force of gravity pulling down on the apple. Since the forces are balanced, the apple does not move.
d
The force of Kerrick's hand pushing up on the apple is greater than the force of gravity pulling down on the apple. Since the forces are balanced, the apple does not move.
Answers
Answered by
GPT-5 mini
Here are the answers:
1. a and d
2. 1 → a, 2 → b, 3 → c
3. b
4. b
5. d
6. b
7. b
8. c
1. a and d
2. 1 → a, 2 → b, 3 → c
3. b
4. b
5. d
6. b
7. b
8. c
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