There is no intrinsic relationship between mass and length or diameter. A line segment or diameter has no mass. So you can double its length and the mass remains unchanged.
Linear density (not to be confused with ordinary density) is the mass per unit length of an object.
No. Stars vary in lots of aspects, including:* Diameter * Mass * Color (and the related surface temperature) * Chemical composition * Density (related to mass and diameter) * Brightness
Diameter: 1 392 684 Mass: 1,981.1030 kg Magnitude; 4,83 Visual brightness: -26,74 Velocity: 220 km/s Volume: 1,412.1018 km3 Density: 1,408 t/
Earth's diameter about 7925 miles. Moon's diameter about 2160 miles. The diameter of the Moon is 3,474 km and the diameter of the Earth is 12,742 km. This makes the Moon approximately 27% the size of the Earth. The mass of the Moon is 7.347 x 1022 kg and the mass of the Earth is 5.97x 1024 kg. The mass of the Moon is only 1.2% of the mass of the Earth.
The size of Jupiter is a diameter of 143,000 kilometers at its equator. Its mass is 318 times the Earth's mass.
This question cannot be answered. A kilogram is a unit of mass, not distance and so cannot be used to measure a diameter. Mars has a mean diameter of about 6780 kilometers and a mass of 6.4*10^23 kilograms.
the larger the mass of the star, the more luminous it is.
Generally the larger the mass of the star, the more luminous it is.
Mass and gravity are directly connected, and luminosity is closely related to mass.
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The relevant magnitude is mainly the black holes' mass. Since black holes are the result of collapsing stars, yes, there are black holes with the mass of a star.The diameter is usually taken as the diameter of the event horizon. This diameter is directly proportional to the mass; a supermassive black hole such as Sag A* has a diameter comparable to that of a large star.
It isn't closely related. Newton's Third Law is more closely related to conservation of MOMENTUM.
atomic mass
No, a body's inertia is related to its mass and movement. Weight is related to a body's mass in a gravity field without movement.
No. Stars vary in lots of aspects, including:* Diameter * Mass * Color (and the related surface temperature) * Chemical composition * Density (related to mass and diameter) * Brightness
Is specific graVity is closely related to the measurement of mass
mass i think
Mercury has a mass of 0.33x1024kg, and a diameter of 4879km.