No, mass is constant all over the earth and everywhere beyond that. Weight on the other hand is a function of mass which depends on the strength of the gravitational pull on the object. Since the gravitational pull from earth isn't constant, but is dependant on what position you are relative to its core, your weight can vary (though its unlikely to be a marked difference).
The weight of a 100 gram mass object is commonly said to be 100 grams, short for 100 grams weight, but strictly a weight is the force of gravity (in Newtons or dynes = m times g). So even the units are different. The weight of this object on the moon would be a lot less than on earth, though its mass would be the same. In a space shuttle, its weight would be zero.
Yes, as long as they are both in the same gravity environment. Weight is equal to mass x acceleration of gravity; so if both objects are on Earth of the same mass they have the same weight but if one is on Earth and the other on the Moon, the one on the moon is about six times less weight.
Is there any meaning of weight of earth ? expain
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Weight = mass x gravityIf the two objects are under the same conditions of gravity (for example, both are on Earth's surface), then they also have the same weight.
No they are not honey
the mass of the objects and the distance of the objects
In the same gravity, downward force (weight) is directly proportional to the mass. (F=mA) If you had two objects of equal mass, and combined them, the weight would be the same as the total of the two.
We cannot say that the mass is same because if objects is same weight varies but not very much, but due to some extra molecules that we cannot see with our eyes the mass varies.
No. Density is a ratio; it is mass divided by volume. Anything that you can weigh has a non-zero density, but the weight of the thing is related to its mass and the gravity where it is being measured. You could have two objects of vastly different density, but the weight of the objects could be the same.
Two objects has got same mass means the mass of both the objects is same. It does not comment any thing about the volume of the objects. If the density of the two objects is same, then only their volume will be same. If both the objects are not made up of the same material, they have most likely to have different volume. Rarely it may be same.
the mass of the objects and the distance of the objects
In the same gravity, downward force (weight) is directly proportional to the mass. (F=mA) If you had two objects of equal mass, and combined them, the weight would be the same as the total of the two.
We cannot say that the mass is same because if objects is same weight varies but not very much, but due to some extra molecules that we cannot see with our eyes the mass varies.
Scales or balances
No. Density is a ratio; it is mass divided by volume. Anything that you can weigh has a non-zero density, but the weight of the thing is related to its mass and the gravity where it is being measured. You could have two objects of vastly different density, but the weight of the objects could be the same.
Two objects has got same mass means the mass of both the objects is same. It does not comment any thing about the volume of the objects. If the density of the two objects is same, then only their volume will be same. If both the objects are not made up of the same material, they have most likely to have different volume. Rarely it may be same.
Weight is a measure of the gravitational force between two objects (normally the Earth and whatever it is we're weighing). It is directly proportional to mass, so yes: two objects of different mass will have different weights when measured under the same conditions.(Scientists like mass rather than weight because mass doesn't change with location. A 1 kg mass on Earth will still be 1 kg on the Moon or Mars, though its weight there will be less.)
If the two objects are the same size and made of exactly the same amount of the exact same stuff then no.
yes
its the same weight as two 2kg objects, or four 1kg objects
An object's weight is equal to its mass, times the strength of the gravitational field: weight = mass x gravity So, the weight is defined by those two things.
Different objects contain different amounts of matter, even if they are the same size. Therefore, two objects of the same size can have different masses.