Because the acceleration of gravity is almost precisely the same anywhere on earth. Weight is the force of gravity on a mass.
However, if you have extremely sensitive equipment, you can detect the different weight of a given mass at different locations.
The difference between weight, OK say that your on the moon your weight is the same that it was on earth but your mass will be totally different then it was on earth.
Weight is measure of the product between the body's mass and acceleration due to gravity acting on it. This acceleration due to gravity is different at different locations on earth. And hence is the weight. Poles are said to have higher acceleration of gravity.
Weight is what we call the amount of the gravitational force between the Earth and an object on the surface of the Earth. It works both ways. Your weight on the Earth is also the Earth's weight on you.
Mass. Weight is different depending on gravity, but mass is always the same. On the Moon an astronaut weighs less, but has the same mass that they have on Earth.
The moon and the earth
The difference between weight, OK say that your on the moon your weight is the same that it was on earth but your mass will be totally different then it was on earth.
Because gravity is relatively constant anywhere on Earth's surface.
Because gravity is relatively constant anywhere on Earth's surface.
Weight is measure of the product between the body's mass and acceleration due to gravity acting on it. This acceleration due to gravity is different at different locations on earth. And hence is the weight. Poles are said to have higher acceleration of gravity.
Mass is a property of the object, no matter what else is around. It doesn't change, regardless of where the object is. Weight is the result of gravitational interaction between the object and something else, so it depends on what else is around. Your weight on Saturn would be different from your weight on Earth, because Saturn's mass is different from Earth'smass, and your distance from Saturn's center would be different from the distance between you and Earth's center.
your weight is one sixth on the moon than how your weight is on earth
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.
Your weight. Weight is the definition of the force between the earth and other objects. Thus you weight is the gravitational force acting on you from the earth.
The deeper you get into the earth, the more weight you have above you. This results in pressure that increases the density of the material below.
Weight is what we call the amount of the gravitational force between the Earth and an object on the surface of the Earth. It works both ways. Your weight on the Earth is also the Earth's weight on you.
"Weight" is the force of gravity between two masses. Its strength depends on the mass of both masses and the distance between their centers. In the case of your weight, the two masses are you and the planet you're standing on, and the distance is the distance between the center of you and the center of the planet you're standing on. The moon's mass is different from the Earth's mass (by about 80 times), and its radius is different from the Earth's radius (by about 3 times). That's why the force that depends on both of these quantities comes out different on the Earth and moon.
If your weight is 58 on earth it is different on the moon because the gravitational pull on the moon is different.