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Dan has a mass of 55 kg on Earth. What is his mass on a planet that has twice Earth's gravity?
Dan's mass is the same as it is on Earth. His weight, however, is doubled.
Why is your weight not one quarter as much when you climb to the top of a tall tree twice as tall as you?
Your weight is not one-quarter as much when you climb to the top of a tree twice as tall as you are because your weight does not change when you move around within earth's gravitational field. You would have to move to outer space or to another planet to have your weight change.
What would be the effect on the mass and the weight of an object if the object were taken to a planet with twice the gravity of earth?
The mass of the object would remain the same because mass is an intrinsic property of the object. However, the weight of the object would double on a planet with twice the gravity of Earth since weight is the force exerted on the object due to gravity, which is directly proportional to the acceleration due to gravity.
What would be the effect on mass and the weight of an object were taken to a planet with twice the gravity ofearth?
The mass won't change (except for insignificant effect due to the Theory of Relativity); the weight will be twice as much. I am assuming you mean the gravitational field; that is, the gravitational acceleration will be twice as much.
When does an object with twice as much mass as another weigh twice as much?
An object with twice as much mass as another will weigh twice as much when the gravitational force acting on both objects is the same. This occurs when both objects are on Earth or in a location with the same gravitational pull.
How would your present weight change if earth had twice the mass that it does now?
It would double.
How would your present weight change if earth twice the mass that it doe now?
It would double.
if the earth had twice it’s present radius and twice it’s present mass, what would happen to your weight explain your answer?
i will be twice as heavy
What way dose mass cores pond with weight?
The formula that relates them is: weight = mass x gravity If gravity doesn't change - which is the usual case close to Earth's gravity - you can say that weight is proportional to mass. That means that twice the mass results in twice the weight.
Dan has a mass of 55 kg on Earth. What is his mass on a planet that has twice Earth's gravity?
Dan's mass is the same as it is on Earth. His weight, however, is doubled.
Why is your weight not one quarter as much when you climb to the top of a tall tree twice as tall as you?
Your weight is not one-quarter as much when you climb to the top of a tree twice as tall as you are because your weight does not change when you move around within earth's gravitational field. You would have to move to outer space or to another planet to have your weight change.
What would be the effect on the mass of the weight of an object if the object were taken to a planet with twice the gravity of earth?
the mass would stay the same no matter where you are and the weight is the force of gravity on an object, so depending on the gravity your weight would change
What would be the effect on the mass and the weight of an object if the object taken to a planet with twice the gravity on earth?
the mass would stay the same no matter where you are and the weight is the force of gravity on an object, so depending on the gravity your weight would change
What is the simple present tense of change?
change or changes They change their clothes everyday. He changes his clothes twice a week.
What is the present tense of changed?
change or changes They change their clothes everyday. He changes his clothes twice a week.
What would be the effect on the mass and the weight of an object if the object were taken to a planet with twice the gravity of earth?
The mass of the object would remain the same because mass is an intrinsic property of the object. However, the weight of the object would double on a planet with twice the gravity of Earth since weight is the force exerted on the object due to gravity, which is directly proportional to the acceleration due to gravity.
Which planet more than dubiles your weight?
Everything on Jupiter weighs more than twice as much as on Earth. This means that Jupiter has a gravitational pull that is more than twice that of the gravitational pull on Earth.
