-- the object's weight
-- the atmospheric pressure on it
-- the temperature around it
-- the intensity of solar radiation on it
-- its distance from the nearest McDonald's
the force of gravity on the surface of the moon is about 1/6th the gravity on the surface of the earth so an object on the moon would weigh about 1/6th what it weighs on earth. The moon´s gravitational field is not strong enough to hold an atmosphere. As the atmosphere in part acts as a heatsink the temperature difference between day and night on the moon is far larger than on the earth.
weight changes due to a change in gravitational pull (gravity lessens and your weight is less)
The inertia is basically the mass, so no.
weight
The object's mass doesn't change, no matter where it is or where it goes.
The closest natural object to Earth is the moon.
An object transported from the Earth to the moon has a different weight and same mass.
The moon changes it's shape as it orbits the Earth. When it goes from a crescent to full, it's called "Waxing". When it goes from Full to crescent it's called "Waning".
weight
The distance between Earth and Moon changes. Like any object going in an orbit around another object, the Moon moves around Earth in an ellipse, not in an exact circle.
The object's mass doesn't change, no matter where it is or where it goes.
If your mass has 40 kg on earth what is your mass on moon
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.
The moon is the closest object to Earth.
The closest natural object to Earth is the moon.
Your weight on the moon is one-sixth (1/6) what it is on earth.
The Earth goes around the sun, the moon goes around the Earth.
An object transported from the Earth to the moon has a different weight and same mass.
No, the mass of an object is independent of where it is. The mass does not change. However, the weight (that is the product of mass and gravity acceleration) changes by change of the gravity. For example, the gravity on the moon is 1/6th that on earth. so, the object weight on the moon is 1/6th the same object weight on earth.
From seeing how it changes tides, looking at it, and going up in space and looking at it.