6.76294 × 1030kilograms is 3.4 solar masses. Also you can find out any solar mass if you just type the solar mass on google.
A mass of a star can be anything between 0.1 solar masses to 100 solar masses.
1 kilogram is about 5.02*10^-31 solar masses.
Barnards star has a mass of between 0.15 and 0.17 solar masses.
Jupiter has a mass of 0.001 Solar Masses. A star needs at least 0.1 Solar Masses, so if you multiplied Jupiter's mass by at least 100 it would become a star.
It is 100 times the mass of our own sun
A mass of a star can be anything between 0.1 solar masses to 100 solar masses.
1 kilogram is about 5.02*10^-31 solar masses.
That refers to a black hole that results from the gravitational collapse of a star, and which has a mass between 3 solar masses and several solar masses, depending on the mass of the star that collapsed.
Barnards star has a mass of between 0.15 and 0.17 solar masses.
Barnards star has a mass of between 0.15 and 0.17 solar masses.
Jupiter has a mass of 0.001 Solar Masses. A star needs at least 0.1 Solar Masses, so if you multiplied Jupiter's mass by at least 100 it would become a star.
That would depend on the mass of the black hole. Here are some values: 3 solar masses: 3.96 million miles 30 solar masses: 12.5 million miles 1000 solar masses: 72.3 million miles 1 million solar masses: 2.23 billion miles 4 million solar masses: 4.57 billion miles 100 million solar masses: 22.7 billion miles 1 billion solar masses: Within the event horizon
It is not necessarily any size, as 0.123 solar masses is a measure of mass rather than size. The size of an object of a given mass can vary depending on the object's density.
Depending on the mass of the original star it will either end up as a neutron star (< 20 solar masses) or a black hole (> 20 solar masses).
Alpha Centauri has a mass of 1.1 solar masses.
It is 100 times the mass of our own sun
Anywhere from about 100,000 solar masses (100,000 times the mass of our Sun), to more than 10 billion solar masses (the approximate size of the largest known black holes).