Mainly because the Imperial system used the same units to refer to either. Also because the public, at large, have not studied (or if they have, do not remember) that mass and weight are two entirely different things.
People tend to confuse mass and weight because they are often talked about together. Mass and weight are different properties.
No. Mass is independent of gravity, but weight is a function of gravity and mass.
Basically by weighing it. Although mass is not the same as weight, if you know the weight and the gravity, you can calculate the mass.Basically by weighing it. Although mass is not the same as weight, if you know the weight and the gravity, you can calculate the mass.Basically by weighing it. Although mass is not the same as weight, if you know the weight and the gravity, you can calculate the mass.Basically by weighing it. Although mass is not the same as weight, if you know the weight and the gravity, you can calculate the mass.
Weight= massxg. Therefor, according to the formula, everything having mass will also have weight.
No. The weight is the mass times the acceleration. W=ma. The weight can be zero if the acceleration is zero, even if the mass is positive. Mass and weight are not the same thing.
People tend to confuse mass and weight because they are often talked about together. Mass and weight are different properties.
The unit of weight is the newton, since a weight is a force. However, when people say "weight" they often mean "mass" (or confuse weight with mass); and it is common to talk about a person's mass (or incorrectly, a person's "weight") in kilograms.
Mass & weight are often used interchangably, but they are not th same. Weight is equal to the force acting on a mass, normally due to gravitational acceleration.
They are most definitely NOT the same, but people often confuse them. The relationship is: weight = mass x gravity That means that, other things being equal, weight is proportional to mass. But it also depends on gravity.
the word comes from middle English and the definations is: to be mixed up , counfused.
they are the same thing.
This is often achieved by weighing it. In this case, it may be compared with the weight of a standard (i.e., known) mass.
Kilograms are a measure of mass (often called weight), not height.
For "matter", it would depend what aspect of matter you want to measure.Mass is often measured via its weight; under normal Earth gravity, the weight is proportional to the mass.
Weights are measured in newtons. Note that the mass is measured in kilograms; in popular culture, mass and weight are often confused.
The kilogram is the unit of MASS, not of weight. This is often confused. The SI unit of weight is the same as the unit for force, namely the newton.
Good question. Yes, your weight would change, but your mass would not. People often confuse weight with mass.If your mass is 50kg, then your weight on Earth is 500N - weight is a force, and it is equal to mass x acceleration due to gravity.Because the force of gravity on the moon is much less, about 1/6 of that on Earth, your weight would be about 80N. Your mass, however, would still be 50kg.