the weight decreases and mass stays the same
The weight of a spaceship does not change as it leaves the earth, but it does change as it moves from one location to another within the gravitational field of a celestial body such as the earth. The weight of an object is a measure of the force of gravity on that object. It is equal to the mass of the object multiplied by the acceleration due to gravity. The mass of an object, on the other hand, is a measure of the amount of matter it contains and is a constant property of the object. So, while the weight of a spaceship may change as it moves within the gravitational field of a celestial body, its mass remains constant.
Because the gravitational force between any two objects depends on the product of both their masses. The object's weight on earth depends on the object's mass and the earth's mass, whereas its weight on the moon depends on the object's mass and the moon's mass. Since the moon's mass is very different from the earth's mass, the object's weight is also different there.
The object's mass doesn't change, no matter where it is or where it goes.
No. The mass of an object does not change. However and object's weight, which is a function of mass and gravity, is less on the moon than on earth.
An object transported from the Earth to the moon has a different weight and same mass.
The weight of a spaceship does not change as it leaves the earth, but it does change as it moves from one location to another within the gravitational field of a celestial body such as the earth. The weight of an object is a measure of the force of gravity on that object. It is equal to the mass of the object multiplied by the acceleration due to gravity. The mass of an object, on the other hand, is a measure of the amount of matter it contains and is a constant property of the object. So, while the weight of a spaceship may change as it moves within the gravitational field of a celestial body, its mass remains constant.
No, an object's mass is constant in every elevation. What changes is the object's weight. The force of gravity is inversely dependent on the square of the distance between objects' centers, so in the case of an object being drawn to Earth, the farther the object is, the less it weighs. Because of the Earth's large mass, the weight changes are small on the Earth's surface. Once you send the object on a spaceship, it becomes weightless when it is far enough, still keeping its original mass.
The mass of a 65n object on earth is 6.63 kilograms.
The mass of an object that weighs 39.2N on earth is 4kg
On earth, this object has a mass of 25.82kg
At the earth's surface, the object's mass is 0.78kg
The mass of an object that weighs 600N on earth is 61.18kg
Yes. The mass of an object is always the same, but the weight of an object depends on the force of gravity on it.
How close the object is. and the mass of both the object and the earth.
Because the gravitational force between any two objects depends on the product of both their masses. The object's weight on earth depends on the object's mass and the earth's mass, whereas its weight on the moon depends on the object's mass and the moon's mass. Since the moon's mass is very different from the earth's mass, the object's weight is also different there.
there is no change in the mass of body
The object's mass doesn't change, no matter where it is or where it goes.