The weight is dependent on the mass. Mass is the same everywhere but since weight is mass * acceleration due to gravity, weight is the dependent variable.
the total mass will be equal to the mass of the tea added to the mass of the sugar such is the law of conservation of mass. The weight will be proportional and dependent on the gravity force of the position in space
They both tell how much matter is in a substance or object.
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.
Mass is not dependent on the forces applied to it. Weight is the force that a mass exerts due to the acceleration of gravity.
Your "weight" is the magnitude of the gravitational force between you and another mass. -- In deep space, far from any other mass, the gravitational force between you and any other mass would be very small, but never zero. -- Near a back hole, the gravitational force between you and the black hole would be (gravitational constant) x (your mass) x (black hole's mass)/(your distance from the black hole)2
Every object has MASS. Its weight is dependent on the Gravitational Field it is immersed in. Weight changes based on position in the Gravitational Field. MASS is constant as long as the object stays intact.
No, look at a the the size of a beachball and the size of a Bowling ball. Answer2: Yes. The weight of an object is dependent on mass. Weight = mass times gravity acceleration g, W = mg.
weight
Gravity is an acceleration due to mass. Weight is a force dependent on gravity. Force = mass x acceleration. Weight = Mass x gravity.Gravity is dependent upon the mass of both bodies divided by the distance between them. The further apart two bodies are the lesser the gravitational pull. The greater the combined mass the greater the gravitational pull. That is why the further from the Earth one gets the less they weigh though their mass is unchanged.
Some properties are mass, weight, and volume.
The relationship between them is as follows. mass = volume x density weight = mass x gravity That means that, other things being equal, mass is proportional to volume. On the other hand, weight is also proportional to mass.
Mass (measured as weight) is dependent on both density and volume.
Some properties are mass, weight, and volume.
Weight is dependent on gravity, and mass is not.
Mass is the amount of "stuff" in an object or a region of space. Weight is the gravitational force between two masses. When you're talking about weight, the earth is usually one of the masses. Your mass never changes, regardless of where you are. Your weight does change, depending on what the other mass is.
There is no difference in an astronaut's mass no matter where he or she might be. Mass is a constant, as opposed to weight which is dependent upon acceleration.None.Put simply. Mass is a measurement of how much matter is in an object, whereas weight is a measurement of how hard gravity is pulling on that object. As their is less gravity on the moon, your weight would be different, your mass would not.
Describe the relationship between mass and weight.