The mass of an object remains constant on Earth because mass is a measure of the amount of matter in an object, and this does not change based on the location or environment. Gravity affects weight, not mass, so an object's mass will stay the same regardless of where it is on Earth.
Your mass, the mass of the Earth, and the distance between you and the earth's center determine the gravitational force exerted on you by the Earth (i.e. your weight).
Your mass will be the same on the Moon and on the Earth. However, your weight (the force with which gravity pulls on you) would be different because gravity is weaker on the Moon compared to the Earth.
The mass of the rubber band will stay the same when it is stretched.
An object's mass remains the same regardless of its distance from the center of the Earth. Mass is an intrinsic property of an object that does not change with its location in space.
The mass of an object remains constant on Earth because mass is a measure of the amount of matter in an object, and this does not change based on the location or environment. Gravity affects weight, not mass, so an object's mass will stay the same regardless of where it is on Earth.
Your mass would stay the same. Mass is the amount of matter in an object, so your mass would stay at 68kg.
Because mass is not the same as weight. Weight is mass times gravity so your weight will change if you are on the earth or moon but your mass will stay the same.
Your mass will stay the same regardless of your location in the universe. Mass is a fundamental property of an object and does not change with location.
Venus has almost the same mass as Earth.
Yes, no gas is given off, therefore the mass of conversation will stay the same.
The acceleration of a body due to gravity is independent of its mass. So even if Earth had twice its present mass, the acceleration of the more massive Earth due to the Sun would be the same as the present acceleration of Earth from the Sun.
No, the Earth has a much greater mass than the Moon. The Earth's mass is about 81 times greater than the Moon's mass.
weight is derived from gravity's effect upon mass. so your weight would decrease, however your mass would stay the same.
No, your mass remains the same regardless of the gravitational force acting on you. Weight is dependent on gravity and mass, so on the moon where gravity is weaker, you would weigh less compared to on Earth, but your mass would stay constant.
Your mass will stay the same. Mass is always the same no matter what.
Weight depends on the gravitational pull of a celestial body, while mass remains constant. On the moon, gravitational force is weaker than on Earth, so your weight would be less on the moon compared to Earth. However, your mass would stay the same in both places.