Mass does not change with changes in altitude or elevation. Weight on the other hand does change. However, on earth the change from sea level to the top of a mountain would be extremely small.
Your mass will not change, but your weight will.
The gravitational force exerted on an object by the earth(also called weight of an object) depends on the mass of the object. Force due to gravity = (mass of the object)*g where g is the acceleration due to gravity which for all intensive purposes is relatively constant. g will change very slightly with distance. If you are curious to how g changes: g@an altitude above sea level= [1/(1+altitude/R)^2]*g at sea level Where R= radius of the earth = 6,378.1 Km This can be easily derived from newtons theory of gravitation For example: lets take an altitude close to mount everest, 9Km The acceleration due to gravity at that point will be only 0.3% less than at sea level. Mass and Weight The gravitational force Earth exerts on an object is the weight of the object. Because weight is a force, it is measured in newtons. Weight is not the same as mass. Mass is the amount of matter an object contains, and is measured in kilograms. Even if the mass of an object doesn't change, its weight will change if its distance from Earth changes.
The weight itself is how much mass is there, so in theory the WEIGHT changes to how much mass there is.
the weight reduces due to change in gravity but mass remains constant
The mass is physical quantity measured in kilograms, and the weight is a force measured in Newtons.The weight depends on the mass of the planet you are standing on, and altitude. At sea level on earth, 1 kg presses on a scale with 9.8 Newtons of force, 30kg with 294 Newtons, but the scale shows 1kg or 30kg respectively for weight because we tend to think of mass and weight as synonymous.A very precise spring scale is going to show lower weight at higher altitudes! In orbit, the weight is zero; even though the mass is the same! Because of this variation with altitude, scales that must measure mass accurately do not depend on springs.
No it does not. Its weight, however, does.
I am assuming that you mean mass of an object. The answer is no, it does not change. Mass (Density) stays the same wherever the object is, only its weight will change if the force of gravity is different.
Altitude and elevation do not directly affect body weight in terms of actual mass. However, at higher altitudes, the air is thinner, leading to a decrease in air pressure. This can cause individuals to feel lighter or experience decreased appetite due to changes in their body's metabolism and oxygen levels. Additionally, some individuals may experience temporary fluid loss at higher altitudes, which might lead to a slight decrease in weight.
No. You may weight a little less, but density is mass per volume. Neither mass nor volume changes when you gain altitude.
Your mass will not but your weight will.
Your mass will not change, but your weight will.
Weight changes but, ordinarily, mass doesn't.
No. The mass of an object doesn't change (Law of Conservation of Mass), therefore its weight won't change either (weight = mass x gravity).
1) Mass is a measurement of the amount of matter something contains, while Weight is the measurement of the pull of gravity on an object.2) Mass is measured by using a balance comparing a known amount of matter to an unknown amount of matter. Weight is measured on a scale.3) The Mass of an object doesn't change when an object's location changes. Weight, on the other hand does change with location.From [related links]
The gravitational force exerted on an object by the earth(also called weight of an object) depends on the mass of the object. Force due to gravity = (mass of the object)*g where g is the acceleration due to gravity which for all intensive purposes is relatively constant. g will change very slightly with distance. If you are curious to how g changes: g@an altitude above sea level= [1/(1+altitude/R)^2]*g at sea level Where R= radius of the earth = 6,378.1 Km This can be easily derived from newtons theory of gravitation For example: lets take an altitude close to mount everest, 9Km The acceleration due to gravity at that point will be only 0.3% less than at sea level. Mass and Weight The gravitational force Earth exerts on an object is the weight of the object. Because weight is a force, it is measured in newtons. Weight is not the same as mass. Mass is the amount of matter an object contains, and is measured in kilograms. Even if the mass of an object doesn't change, its weight will change if its distance from Earth changes.
Yes... not your mass though. Know the difference between mass and weight. The acceleration of Gravity is less as you get further away from the center of the earth. Which would cause you to weigh less. The equation for the force of gravity is GMm/(R^2). Where G is the universal Gravity Constant wich is something like 6.67x10^(-11) and M is the mass of the earth, and m is the mass of the weight being measured. R is the distance from the center of the earth... which increases as you increase in altitude.
Weight changes when the mass acting upon it changes or the distance between them alters. Mass does not change, weight may.