DIFFERENCE BETWEEN MASS AND WEIGHT | What is Mass | What is Weight | CSS/PCS/PMS/IAS

DIFFERENCE BETWEEN MASS AND WEIGHT | What is Mass | What is Weight | CSS/PCS/PMS/IAS

DIFFERENCE BETWEEN MASS AND WEIGHT | What is Mass | What is Weight | CSS/PCS/PMS/IAS

DIFFERENCE BETWEEN MASS AND WEIGHT:

People consider mass and weight same terms but this is not same there is alot of difference between mass and weight.Below you will get your correct answer.

WHAT IS MASS?

Mass is the scientific measure of the material of an object. No matter where you are they are at a given time, the mass is constant. So whether or not you walk into the store to stock up food or jumping on the moon, its weight is the same. Obviously, you're on a diet this is not the answer you want to hear, but don't panic to get to all the important things determination weight coming soon.

Here are some other important points about Mass:
1. The mass is indestructible. As you saw above, no matter where you are in the universe, its mass it will never change.

2. The weight should never be zero. What we mean here is that everything in the universe has mass. If that not simply does not exist.

3. Mass has nothing to do with gravity, centrifugal force, etc., and these forces have no effect your weight.

4. The mass is usually measured in kilograms and grams.

WHAT IS WEIGHT?

Weight is a form of measurement that depends on gravity and, unlike mass, is capable of weight depending on where you are in the universe. Weight is not only a very important metric from all over the world, but for scientists and eggheads who are designing things like spaceships and against ships the end of the spectrum, but it's about perspective. But how can weight change while the weight has to remain constant? It's quite simple: the weight varies that is, it may vary with the degree of gravitational attraction that the object exerts on the body. The scientists the weight was determined using this equation:

Formula Of Weighgt: 
weight (W) = mass (M) will be multiplied to gravitational acceleration (g) which will give the resulth (W = mg)


Here are some key points about weight:
1. The weight of an object varies depending on where it is located. If you decided to visit the moon to test it out of this theory, you realize that within a few hours you would lose two weight thirds (on your face, the slimming world!).

2. Weight is a vector and its direction of pull is toward the center of the planet on which it was standing. What? Sorry, I promised lay terms: gravity created by the weight of an object, it moves toward the center of the object and gravity determines you or any other object weight.

3. The weight of any given item can go up or down, depending on its weight. The greater the gravity heavier object. Less gravity the subject is clearer.

4. Unlike mass, mass may be zero. An example of this is the astronaut floating in space no gravity affecting your body, and therefore no mass.

5. Weight is usually measured in Newton.

Summary:

Mass:

  1. Mass is the property of matter. The mass of the body is the same all the places.
  2. The mass can never be zero.
  3. The weight does not change depending on the location.
  4. Mass is a scalar quantity. Has size.
  5. The mass can be measured with a normal weight.
  6. The mass is usually measured in grams and kilograms.


Weight:

  1. Weight depends on the effect of gravity. Weight may be increases or decreases with high or low gravity.
  2. Mass can be zero if gravity does not affect an object like space.
  3. Weight varies with location.
  4. Weight is a vector quantity. It is of magnitude and is directed toward the center of the Earth or other gravity wells.
  5. The weight is measured using a spring scale.
  6. Weight is often measured in Newtons per unit of power.

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