Wiki User
∙ 14y agoYour mass is always the same.
Wiki User
∙ 14y agoThat is because Earth has more gravity. Weight = mass x gravity.
Because the force of gravity exerting on objects on the moon is much lower than that of the earth.
Mass is an inherent property of an object and it does not change. Most commonly, we weigh objects on the earth. An object's weight depends on the attraction by gravity to another object. The formula for weight on the earth is weight = (a constant) x (mass of object) x (mass of earth)/(d-squared) where d = distance between center of mass of object and center of mass of earth d-squared is the distance d, raised to the second power. A person weighs slightly less on the top of a mountain than they weigh at sea level. Because moon's mass is only about one-sixth the mass of the earth, the weight of a man on the moon is about 1/6 of his weight on the earth.
This is a ludicrous question. 53106 pounds on Jupiter is equivalent to approx 10 tons on earth. No person can weigh 10 tons!
"Weight" is the two-way gravitational attraction between two objects. A single objectin space all by itself has no weight. In order to measure its weight, you need to haveanother object around to set up a mutual gravitational attraction, and then the weightwill depend on the mass of the other object, and also on the distance between thecenters of both of them.If I am the other object and I am located one earth-radius from the center of the earth,then the earth weighs 185 pounds, or about 822 newtons.
On a larger planet, such as Jupiter or Saturn.
Things are heavier on Jupiter than on Earth because Jupiter has a much larger mass and stronger gravitational pull. This means that objects would weigh more on Jupiter compared to the same objects on Earth.
The weight of an object on Earth is caused by the gravitational force between the object and Earth's mass. The gravitational force pulls objects towards the center of the Earth, giving them weight. The weight of an object is a measure of the force exerted on it due to gravity.
Yes, an object's mass would be the same on Jupiter as it is on Earth because an object's mass remains constant regardless of the gravitational pull of the planet. However, an object's weight would be different on Jupiter due to the stronger gravitational pull compared to Earth.
The mass of the object would remain the same regardless of its location, as it is an intrinsic property. However, the object's weight on Jupiter would be approximately 2.5 times its weight on Earth due to Jupiter's stronger gravity compared to Earth's gravity.
An object's weight is caused by the gravitational force acting on it. The weight of an object is the force with which it is pulled towards the center of the Earth.
Moving an object to Jupiter would change its weight due to the stronger gravitational pull on Jupiter compared to Earth. The object would also experience higher levels of radiation due to Jupiter's powerful magnetic field. Additionally, the object would be subject to extreme atmospheric conditions and intense pressure at Jupiter's surface.
On Jupiter, your weight would be about 154 pounds. Jupiter's gravity is stronger than Earth's, so objects weigh more on Jupiter compared to Earth.
Jupiter has mass, not weight, as weight is the force of gravity acting on an object. Jupiter's mass is over 300 times that of Earth's, making it the most massive planet in our solar system.
Your weight on Jupiter would be about 2.5 times your weight on Earth due to Jupiter's stronger gravity. This means that if you weigh 150 pounds on Earth, you would weigh around 375 pounds on Jupiter.
The reason is because the mass is like the volume and the weight is like how heavy an object is.
The force of gravity can affect the weight of an object. This force pulls objects toward the center of the Earth and determines their weight.