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The gravitational force between two objects is proportional to the product of their masses. (sun's mass) times (earth's mass) is a very large number. (sun's mass) times (my mass) is a much smaller number.
The major difference is that a low-mass star lives much longer. The reason for this is that a high-mass star gets hotter, is much brighter, and uses up its fuel much faster. The difference can be quite dramatic, with some stars being millions of times brighter than others. Also, assuming the star doesn't acquire additional mass, a low-mass star will end up as a white dwarf, while more massive stars will end up as a neutron star, or in the case of the most massive stars, a black hole.
The gravitational force is set by the mass but also by how far away you are.
Kilogram is a unit of mass, not of weight. - Wikipedia lists the mass as 5.6846
All you do is 50x100 which is 5,000So the answer is 5000kg of fuel
Stars with less mass live much longer. Stars with greater mass get hotter, and have more pressure in their core; as a result, they use up their fuel much faster.
It determines the Mass of the Air Flowing into the engine. The engine computer must know how much air is flowing into the engine to determine how much fuel to inject into the cylinders to get the appropriate fuel-air mixture.
Weight = mass x gravity. Therefore, this will happen as long as gravity doesn't change.
That would be "black hole". This is most likely to happen when the original star is very massive - several times the mass of the Sun. A star of the Sun's mass will definitely NOT become a black hole, unless it somehow acquires much more mass.
Electrons are lighter than proton Electrons are elementary particles, and just happen to be among the lightest of them all. Protons and neutrons are not elementary (they consist of quarks and gluons) and just happen to be heavierer
The most massive stars; they will use up their fuel much faster than less-massive stars. or even low mass star which is less then half the mass of our sun may able to last more then a trillion years that is longer then the universe age
4 times as great
It can happen several times, about up to three-maybe four times.
Depends what measurement you want to compare. Diameter of the Earth is about 4 times as big, therefore its surface area is about 16 times as big and its volume 64 times as big; the Earth's mass is 81 times as much as the mass of the Moon.
Volume times density (of the material contained).
Force equals mass times acceleration.
That would be (10) times (the density of the substance).