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Is it true that as objects accelerate toward each other the gravitational attraction between them decreases?
No, the gravitational attraction between two objects increases as they accelerate toward each other. This is because gravitational force is directly proportional to the product of their masses and inversely proportional to the square of the distance between them, so as they get closer, the force of attraction becomes stronger.
Mass and air resistance affect the gravitational attraction between objects true or false?
This is false. The answer is that mass and distance affect the gravitational attraction between objects. Air resistance has no effect on this.
Objects falling through the air experience a type of friction called air resistance true or false?
True. Objects falling through the air experience air resistance, which is a type of friction that opposes the motion of the object.
Objects falling through the air experience a type of friction called air resistance. A. True B. False?
A. True. Objects falling through the air experience air resistance, which is a type of friction that opposes the motion of the object.
Objects in free fall are weightless True or false?
False. Objects in free fall are still subject to the force of gravity, so they have weight. However, they experience weightlessness because they are in a state of constant acceleration towards the Earth, causing the sensation of weightlessness.
Is it true that as objects accelerate toward each other the gravitational attraction between them decreases?
No, the gravitational attraction between two objects increases as they accelerate toward each other. This is because gravitational force is directly proportional to the product of their masses and inversely proportional to the square of the distance between them, so as they get closer, the force of attraction becomes stronger.
Mass and air resistance affect the gravitational attraction between objects true or false?
This is false. The answer is that mass and distance affect the gravitational attraction between objects. Air resistance has no effect on this.
Is this statement true or false when Mass and air resistance affect the gravitational attraction between objects?
Mass certainly affects the gravitational attraction between objects; air resistance doesn't.
Is this statement true or false all objects fall toward the center of the earth?
Actually they don't they fall on towards Earths crust.
Objects falling through the air experience a type of friction called air resistance true or false?
True. Objects falling through the air experience air resistance, which is a type of friction that opposes the motion of the object.
Does a red shift indicates that objects are moving toward earth true or false?
No. A redshift means that the light has lost energy; one way for this to happens is if galaxies or other objects moveaway from us.
Objects falling through the air experience a type of friction called air resistance. A. True B. False?
A. True. Objects falling through the air experience air resistance, which is a type of friction that opposes the motion of the object.
Objects in free fall are weightless True or false?
False. Objects in free fall are still subject to the force of gravity, so they have weight. However, they experience weightlessness because they are in a state of constant acceleration towards the Earth, causing the sensation of weightlessness.
Slow moving objects have more kinetic energy than fast moving objects true or false?
that is false as long as the objects have the same mass
Foreign political parties do not lean toward the right or toward the left.?
false
How All objects have momentum true or false?
False. Not all objects have momentum. Momentum is a property of moving objects and is defined as the product of an object's mass and velocity. Objects at rest do not have momentum.
Is this true or false the law of universal gravitation states that the total momentum of objects that interact does not change?
False. The law of universal gravitation states that every object in the universe attracts every other object with a force that is directly proportional to the product of their masses and inversely proportional to the square of the distance between them. This law does not directly deal with momentum but rather with the force of gravitational attraction between objects.
