weight is how heavy an object is;
and
mass is how much volume an object holds
Answer 2
No, the mass is not how much volume ..... Volume and mass are not the same thing. Volume is its size measured in say cubic centimetres or cubic inches, whereas mass is measured in tons or pounds. The difference between mass and weight is that the mass does not change but the weight does (e.g. in outer space an object will have no weight but its mass will still be the same). The effect of this difference is, for example, a body in space may weigh nothing but it will still be able to resist a change in motion (i.e. it has inertia).
Those are two quite different concepts. The mass can be informally understood as the amount of matter in an object. This will not change if you go somewhere else, where the amount of gravity is different (e.g., to the Moon). The weight is the force of the gravitational attraction. This is proportional to the mass, but also to the gravitation - and therefore, it WILL change if you go to the Moon or somewhere else.
Those are two quite different concepts. The mass can be informally understood as the amount of matter in an object. This will not change if you go somewhere else, where the amount of gravity is different (e.g., to the Moon). The weight is the force of the gravitational attraction. This is proportional to the mass, but also to the gravitation - and therefore, it WILL change if you go to the Moon or somewhere else.
Those are two quite different concepts. The mass can be informally understood as the amount of matter in an object. This will not change if you go somewhere else, where the amount of gravity is different (e.g., to the Moon). The weight is the force of the gravitational attraction. This is proportional to the mass, but also to the gravitation - and therefore, it WILL change if you go to the Moon or somewhere else.
Those are two quite different concepts. The mass can be informally understood as the amount of matter in an object. This will not change if you go somewhere else, where the amount of gravity is different (e.g., to the Moon). The weight is the force of the gravitational attraction. This is proportional to the mass, but also to the gravitation - and therefore, it WILL change if you go to the Moon or somewhere else.
Mass is the quantity of matter contained in a body. But weight is the force exerted by the earth's gravity on that mass. Hence if m is the mass then mg is the weight.
mass is scalar where as weight is a vector quantity.
Unit of mass is kg but unit of weight is kg wt.= g newton
Mass is invariant but weight varies from place to place and from planet to planet as it depends on acceleration due to gravity
In free space mass remains the same but weight becomes zero if there is no gravity at all
Those are two quite different concepts. The mass can be informally understood as the amount of matter in an object. This will not change if you go somewhere else, where the amount of gravity is different (e.g., to the Moon). The weight is the force of the gravitational attraction. This is proportional to the mass, but also to the gravitation - and therefore, it WILL change if you go to the Moon or somewhere else.
Weight is mass x gravity. The SAME mass will have a DIFFERENT weight if the gravity is stronger or weaker.Mass causes gravitational attraction. It also causes inertia - an object's resistance against acceleration.
For more details, you may want to check the Wikipedia article "mass versus weight".
An objects mass is the amount of the matter in that object. An objects weight is how gravity is pulling it towards the Earth.
The weight is: mass x 9,80665; the last value is the gravitational acceleration on the earth.
Mass is a measure of how much matter an object has. Weight is a measure of how strongly gravity pulls on that matter.
The Difference:Mass - is the amount of matter in an objectWeight - the magnitude of gravitational force acting on an objectHow they are measured:Mass - balanceWeight - scaleUnit of measurement:Mass - grams (g) and kilograms (kg)Weight - newtons (N)
It is the quality, colour, weight and clarity, apart from that, there is no difference.
They're not. Weight and force are the same, but mass doesn't belong."Mass" is the stuff an object is made of, and never changes."Weight" is the force of gravity between the object and another mass.Weight depends on what the other mass is, and how far the object is from it.That's why the same mass has different weights on the earth and moon.
The weight of the water displaced by the object is subtracted from the actual weight of the object (out of water), leaving the object with a net positive weight while submerged.
Mass is a measure of the amount of matter in an object. Weight is the effect of the force of gravity on the mass of an object.
Mass is a measure of how much matter an object has. Weight is a measure of how strongly gravity pulls on that matter.
The mass of an object tells how much matter is present in the object. The weight tells how strongly gravity pulls it down.
weight and saturation.
The difference between an object's weight, and the weight of water with the same volume as the object.
The weight of an object on the moon's surface is 16.3% of the same object's weight on the earth's surface.
No, but the difference between the buoyant force and the weight of the object will determine whether it floats or sinks.
the actual weight of the object is static weight and along with the shipping package is dynamic weight
I do not know the answer.The difference between mass and capacity is that capacity is how much something can hold and mass is the weight of an object.
Because of buoyancy ; something that acts in the opposite direction to the force of gravity to make the object feel lighter.
Static weight is the total amount of weight a table can safely hold in a static position. The dynamic weight is the weight placed in an object and then put into motion. The difference therefore is the weight being stationary or in motion
Friction is a force that stops almost every object so if there is more weight it is harder for the friction to stop the given object