No. Earth is about 80 times more massive than the moon.
No, they do not have the same mass. The moon has much less mass than Earth.
The mass on the moon and the earth is the same but the weight changes.
The mass of a hammer on the Moon is the same as the mass of that same hammer on Earth - or in space, or anywhere else.
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.
No, the mass density of an object would not be the same on the moon as on Earth. The mass of the object would remain the same, but since the gravitational pull on the moon is weaker than that on Earth, the volume of the object would decrease on the moon, resulting in a different mass density calculation compared to Earth.
Mass doesn't depend on gravity whereas weight does. And moon has gravity less than earth so a body weighs less on moon as compared to its weight on earth. But mass remains same.
The moon has much less mass than the Earth.No, the earth and the moon do not have the same mass. While both are very large, the moon is only 1/81st the weight of earth, with a weight of 7.34 x 10^22 kilograms.
Mass is a constant everywhere in the universe. The weight on the moon is about one sixth of the weight on the earth, because the mass of the moon is about one sixth of the mass of the earth reducing the force of gravity.
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.
Yes, a person's mass remains the same on the moon as it is on Earth. However, because the gravitational pull on the moon is weaker than on Earth, a person's weight would be less on the moon compared to Earth.
No, essentially mass = gravity the earths mass is roughly 81 * that of the moon, if you stood at the same distance from both, the force on you from the earth would be 81 * that of the moon.
He hasn't. The mass is the same, but the graviational pull from the Earth is stronger than that from the moon.