Sun mass = 1.989 * 1030 kilograms.
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Approximately 333,000 times the mass of earth.
Sirius has a mass 0.978 that of the Sun, and a radius 0.0084 times that of the Sun. No, actually Sirius A has a mass of 2.2 that of the Sun and a radius 1.711 times that of the Sun.
The mass of the planet, the mass of the sun and the distance between the two.
No. The surface gravity of a planet is a product of its size and mass. It has nothing to do with distance from the sun. However, a planet farther away from the sun will experience a weaker pull from the sun's gravity.
Yes. The mass of the sun is about 333,000 times that of Earth.
No. The strength of surface gravity on a planet depends on its size and mass.
Sirius has a mass 0.978 that of the Sun, and a radius 0.0084 times that of the Sun. No, actually Sirius A has a mass of 2.2 that of the Sun and a radius 1.711 times that of the Sun.
Sirius has a mass 0.978 that of the Sun, and a radius 0.0084 times that of the Sun. No, actually Sirius A has a mass of 2.2 that of the Sun and a radius 1.711 times that of the Sun.
Yes. Because the size of the Sun is larger than the size of the Earth. This means that if you went to the Sun your mass would change due to the different pulls of gravity and the different atmospheres.
Color, Temperature, size/mass, and brightness
The mass of the planet, the mass of the sun and the distance between the two.
The difference in mass
The amount of mass lost through nuclear fusion is only 7/10 of 1% of the mass of the four hydrogen nuclei. However, it takes a multitude of reactions for the Sun to produce the amount of energy that it does. Each second, the Sun’s lost mass is about 5 million metric tons. When compared to the Sun’s total mass, the amount lost through nuclear fusion is almost insignificant. Therefore, we don't see the Sun decreasing in size.
The size of a "sun" is compared to that of Earth's Sun which is one solar mass. One does not describe a "sun" in terms of height.
A white dwarf, also called a degenerate dwarf, is a small star composed mostly of electron-degenerate matter. They are very dense; a white dwarf's mass is comparable to that of the Sun and its volume is comparable to that of the Earth.
The main star of the Polaris System has a mass which is 4.5 times that of the sun.
The main star of the Polaris System has a mass which is 4.5 times that of the sun.
structure and composition of the motion