That 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.
Mass is the amount of matter in an object. It does not change based on gravity. Weight is the force an object exerts 'downward' due to gravitational acceleration. Force = (mass)*(acceleration). Acceleration due to gravity is less on the Moon than on Earth.
Weight is the measurement of gravitational force on an object, relevant to Earth.
"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.
The reason is because the mass is like the volume and the weight is like how heavy an object is.
The reason is because the mass is like the volume and the weight is like how heavy an object is.
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.
Different objects are at different distance from Earth.
False. The question says "... regardless of size and weight ...", but it is weight that is the force of gravitybetween the object and the earth. So when the weight is different, the force is different, by definition.
The objects weight is a measure of that force.
The objects weight is a measure of that force.
The acceleration of gravity near the earth's surface is 9.8 meters per second2.The force between the earth and any object depends on the object's mass. The force (in newtons) isnumerically equal to 9.8 times the object's mass in kilograms, and is known as the object's "weight".We suspect that the earth exerts different gravitational forces on different objects when we noticethat different people have different weights.
Weight is the force of gravity on an object. An object's weight/gravity increases with its mass, and decreases with its distance from the gravity producer (for example, planet Earth).
Gravitational "force" acts between two objects. Each object "feels" the same force pulling it toward the other object. You and the earth are pulled toward each other, by a force that's called your "weight". Your weight on earth is the same as earth's weight on you. If there is only one object in the whole universe, and no other object exists, then the object that exists has no weight, because there is no gravitational force between two objects. But if there are two or more objects in the universe, then every two of them are attracted to each other, and the force between any two objects is called the "weight" of each object on the other one. That's as plain as I can make it. Can anyone hear me out there ?
Because mass is conserved, which means it stays the same wherever the object goes. The weight is the force that the Earth attracts the object with, which changes when the object goes away from the Earth. Mass is measured by a balance, a pair of scales, where one mass is compared with another. Weight is measured by a spring balance, where the force of attraction by the Earth is measured by how much it extends a spring.
Because the force of gravity exerting on objects on the moon is much lower than that of the earth.