If you mean the weight of the entire planet Earth, the question is, "weight on what". Gravitation is always a force between two objects. For example, if you have a mass of 60 kg., then you weigh about 600 Newton. This is the force with which Earth attracts you. By Newton's Third Law, you will attract planet Earth with the same force: 600 Newton. So, in this example, the "weight of Earth" (against you) is 600 Newton. The force with which Earth attracts, and is attracted by, other objects, will vary, depending on the mass of the other object, and the distance.
If you mean the weight of the entire planet Earth, the question is, "weight on what". Gravitation is always a force between two objects. For example, if you have a mass of 60 kg., then you weigh about 600 Newton. This is the force with which Earth attracts you. By Newton's Third Law, you will attract planet Earth with the same force: 600 Newton. So, in this example, the "weight of Earth" (against you) is 600 Newton. The force with which Earth attracts, and is attracted by, other objects, will vary, depending on the mass of the other object, and the distance.
If you mean the weight of the entire planet Earth, the question is, "weight on what". Gravitation is always a force between two objects. For example, if you have a mass of 60 kg., then you weigh about 600 Newton. This is the force with which Earth attracts you. By Newton's Third Law, you will attract planet Earth with the same force: 600 Newton. So, in this example, the "weight of Earth" (against you) is 600 Newton. The force with which Earth attracts, and is attracted by, other objects, will vary, depending on the mass of the other object, and the distance.
If you mean the weight of the entire planet Earth, the question is, "weight on what". Gravitation is always a force between two objects. For example, if you have a mass of 60 kg., then you weigh about 600 Newton. This is the force with which Earth attracts you. By Newton's Third Law, you will attract planet Earth with the same force: 600 Newton. So, in this example, the "weight of Earth" (against you) is 600 Newton. The force with which Earth attracts, and is attracted by, other objects, will vary, depending on the mass of the other object, and the distance.
The weight of any object on the surface of the moon is 16.55% of its weight on the surface of the Earth.
Gravitational potential energy.
Commonly referred to as the object's "weight".Note: The object also exerts the same identical gravitational force on the earth.Earth
No. Mass is the quantity of actual stuff of which an object is composed.The force of gravitational attraction between the Earth and the object'smass is called the object's "weight" on Earth.
Weight = mass x gravityThe mass of the same object, taken to the Moon, will basically not change. The Moon's gravitational field, however, is less - about 1/6 that of the Earth.
how is weight affected by gravitational force?
the moon has less gravity... because the moon is smaller and and its gravitational pull is MUCH lower than the earths
Less than one tenth (1/10) of the earths gravitational pull.
it is 10N/Kg
WIEGHT
yes
9.8 N/kg