Men weigh less on the moon because the moon's gravitational pull is weaker than Earth's. The gravitational force depends on the mass of the celestial body, so with the moon being smaller than Earth, there is less gravitational force pulling objects towards its surface.
Every heavenly body due their mass have gravitational force. Since the moon is significantly less massive than Earth gravity on the moon is weaker than it is on Earth.
The moon is much less massive than the Earth, therefore the gravitational attraction of the moon is much weaker (about one sixth).
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.
No, humans weigh less on the Moon than on Earth because the Moon has less gravity. The gravitational force on the Moon is about 1/6th of the gravitational force on Earth, so a person would weigh less on the Moon compared to Earth.
The gravity on the Moon is only 16.7 % or 1/6 from the gravity on Earth.
Men weigh less on the moon because the moon's gravitational pull is weaker than Earth's. The gravitational force depends on the mass of the celestial body, so with the moon being smaller than Earth, there is less gravitational force pulling objects towards its surface.
Every heavenly body due their mass have gravitational force. Since the moon is significantly less massive than Earth gravity on the moon is weaker than it is on Earth.
The moon is much less massive than the Earth, therefore the gravitational attraction of the moon is much weaker (about one sixth).
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.
No, humans weigh less on the Moon than on Earth because the Moon has less gravity. The gravitational force on the Moon is about 1/6th of the gravitational force on Earth, so a person would weigh less on the Moon compared to Earth.
The gravitational force on Earth is stronger than on the Moon because Earth has a larger mass and radius. This means objects on Earth weigh more than on the Moon. Additionally, the gravitational force on the Moon is more consistent across its surface compared to the variations on Earth due to factors like mountains and oceans.
An astronaut weighs less on the moon because the moon has less mass than Earth, meaning weaker gravitational force. Weight is the result of the gravitational force acting on an object's mass, so with less force on the moon, the astronaut feels lighter.
An object would weigh less on the moon compared to Earth because the moon has less gravitational pull than Earth. Weight is a measure of the gravitational force acting on an object, so with less gravitational pull on the moon, the object would weigh less.
Earth has gravity or gravitational force that attracts the moon to the Earth.
You would feel heaviest on Earth due to its stronger gravitational pull compared to the Moon. The gravitational force on the Moon is about one-sixth that of Earth, which would make you weigh less on the Moon than on Earth.
Yes, as the moon has only 1/80 as much mass as the Earth, the gravitational force between it and any object is less than the gravitational force between the Earth and the same object. Every 100 pounds of Earth weight becomes 16.23 pounds on the moon.