Review Game Zone
Games
Test
Preview
Back
Match it!
Match it! Select the correct answer from the pull down...Good luck!
Terminal velocity is the velocity of _______
The gravitational force would increase.
The mass of Earth is much greater than the Moon.
Force = G * mass1 * mass2 / distance2
The force would decrease by the inverse square of the distance.
They both land at the same time.
A feather and a bowling ball will fall at the same rate.
a falling object if the force of air resistance equals the force of gravity
the force of the air pushing on a moving object
If two asteroids moved closer together, what would be the result on the gravitational force each asteroid exerts on the other?
The gravitational force would increase.
The mass of Earth is much greater than the Moon.
Force = G * mass1 * mass2 / distance2
The force would decrease by the inverse square of the distance.
They both land at the same time.
A feather and a bowling ball will fall at the same rate.
a falling object if the force of air resistance equals the force of gravity
the force of the air pushing on a moving object
Why does the Moon orbit the Earth?
The gravitational force would increase.
The mass of Earth is much greater than the Moon.
Force = G * mass1 * mass2 / distance2
The force would decrease by the inverse square of the distance.
They both land at the same time.
A feather and a bowling ball will fall at the same rate.
a falling object if the force of air resistance equals the force of gravity
the force of the air pushing on a moving object
If the Moon moved farther away from Earth, what would happen to the gravitational force between Earth and the Moon?
The gravitational force would increase.
The mass of Earth is much greater than the Moon.
Force = G * mass1 * mass2 / distance2
The force would decrease by the inverse square of the distance.
They both land at the same time.
A feather and a bowling ball will fall at the same rate.
a falling object if the force of air resistance equals the force of gravity
the force of the air pushing on a moving object
What is the formula for the law of universal gravitation?
The gravitational force would increase.
The mass of Earth is much greater than the Moon.
Force = G * mass1 * mass2 / distance2
The force would decrease by the inverse square of the distance.
They both land at the same time.
A feather and a bowling ball will fall at the same rate.
a falling object if the force of air resistance equals the force of gravity
the force of the air pushing on a moving object
Which of the following BEST describes the term terminal velocity
The gravitational force would increase.
The mass of Earth is much greater than the Moon.
Force = G * mass1 * mass2 / distance2
The force would decrease by the inverse square of the distance.
They both land at the same time.
A feather and a bowling ball will fall at the same rate.
a falling object if the force of air resistance equals the force of gravity
the force of the air pushing on a moving object
In a vacuum (an environment without air), what will happen when two objects with different mass are dropped at the same time from the same height?
The gravitational force would increase.
The mass of Earth is much greater than the Moon.
Force = G * mass1 * mass2 / distance2
The force would decrease by the inverse square of the distance.
They both land at the same time.
A feather and a bowling ball will fall at the same rate.
a falling object if the force of air resistance equals the force of gravity
the force of the air pushing on a moving object
Which of the following is a true statement about objects in a vacuum?
The gravitational force would increase.
The mass of Earth is much greater than the Moon.
Force = G * mass1 * mass2 / distance2
The force would decrease by the inverse square of the distance.
They both land at the same time.
A feather and a bowling ball will fall at the same rate.
a falling object if the force of air resistance equals the force of gravity
the force of the air pushing on a moving object
Check it!