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Higher mass stars "burn" faster due to the increased pressure in the core.
Mass is not an intensive property, it is an extensive property, i.e. the mass of a system made of two parts A and B is equal to the mass of A plus the mass of B. An intensive property (e.g. pressure or temperature) is one in which the value of the property for the entire system is equal to the value of the property for any of the subsystems. So, you probably wanted to ask why mass is an extensive property. This is a consequence of the law of gravity and of the fact that forces add up to make a resultant force. The total gravitational force upon a body X by two other bodies A and B is the sum of the force exerted by A and the force exerted by B. It's as if we have a combined body with the mass of A plus the mass of B, and thus mass is extensive.
High-mass stars
Space is filled with the unknown and the mysterious. they say large bodies of gas biulds up in one place and begiens to harden and forms a great mass known as a stars.
Because the mass depends on the size of an object.
Yes. Mass is a fundamental property of matter.
"height" is a measurement of elevation. "mass" is a fundamental property of matter.
Because of mass which is the fundamental property of every particle.
As far as we know presently, it is utterly impossible to "end" gravity; it is a fundamental property of mass. Anything that has mass has gravity.
Mass is a measure of the amount of matter in an object; a fundamental property of an object that is not affected by the forces that act on the object, such as the gravitational force :)
Everything in the universe, which has mass, is the source of gravity. Mass is the fundamental property of every object in this universe and it is due to this property that every object attracts other objects. So, earth is also a source of gravity.
Every object in the universe which has mass attracts other by gravity. Mass is the fundamental property of every object in the universe and it is due to mass gravity exits. So sun also has gravity.
Binary stars are ideal to determine the mass of the components.
No. Earth's gravity is a product of its mass, which is a fundamental property of the materials that make it up. The same is true of all objects.
gravity is sometimes detemined by mass.everything is a property to be associated with all matter (with mass) in the universe
No, weight is not a fundamental quantity.
Not really.Somethings weight is a measure of the mass of the object in a gravity field. therefore an object of mass 1 Kilogram will weigh 1 kilogram on Earth but only 1/3 of a kilogram on the Moon.For this reason we say stars / planets/ moons etc have mass not weight as it is mass that is the invariant property of matter not weight.