The sun's diameter is about 865,374 miles. Its density is 1.622�105 kg/m3 and its mass is (1.98855±0.00025)�1030 kg which is 333,000 times that of Earth.
There are two ways of comparing size: Mass, and volume. (Mass is the product of volume and density). Our sun is about average, perhaps a little above. It is expected there are lots of small red dwarf stars, which begin fusing hydrogen up around 15 Jovian masses. Since our sun out masses Jupiter by a factor of several thousand, the smallest stellar mass would approximately be one hundredth the mass of our sun. Note: there may be special circumstances a sun could be even smaller--see the link below. As for diameter, white dwarf stars could have diameters of 7000 miles--that is even smaller than our earth (8000 miles). Neutron stars are even smaller yet, with diameters up to one half mile, yet with roughly the mass of our own sun. The biggest stars can have masses hundreds of times that of our sun, and correspondingly large diameters. larger in diameter, more dense, average in mass
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
The Sun appears larger than other stars because it is much closer to Earth compared to other stars. This proximity makes the Sun appear larger and brighter in our sky. In reality, the Sun is an average-sized star compared to the vast range of sizes of other stars in the universe.
The low density of Betelgeuse is due to its outer layers being expanded and less compact compared to other stars. Betelgeuse is a red supergiant star in a late stage of its life cycle, causing it to have lower density as it has expanded to a large size.
The brightest stars appear brighter because they are closer to Earth or intrinsically brighter due to their size, temperature, or luminosity compared to other stars. Their brightness makes them stand out more in the night sky.
When compared to the other stars, the Red Giant Star are very minute. There are other stars that are very large by far as compared to the Red giant stars.
There are two ways of comparing size: Mass, and volume. (Mass is the product of volume and density). Our sun is about average, perhaps a little above. It is expected there are lots of small red dwarf stars, which begin fusing hydrogen up around 15 Jovian masses. Since our sun out masses Jupiter by a factor of several thousand, the smallest stellar mass would approximately be one hundredth the mass of our sun. Note: there may be special circumstances a sun could be even smaller--see the link below. As for diameter, white dwarf stars could have diameters of 7000 miles--that is even smaller than our earth (8000 miles). Neutron stars are even smaller yet, with diameters up to one half mile, yet with roughly the mass of our own sun. The biggest stars can have masses hundreds of times that of our sun, and correspondingly large diameters. larger in diameter, more dense, average in mass
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
Nothing, really. The Sun is average in size, temperature, and density. Its an all around average star.
Our Sun is well above the median; probably somewhere around percentile 85 or 90, both with respect to mass and diameter. That means that 85% or 90% of the stars are smaller than our Sun.
The Sun appears larger than other stars because it is much closer to Earth compared to other stars. This proximity makes the Sun appear larger and brighter in our sky. In reality, the Sun is an average-sized star compared to the vast range of sizes of other stars in the universe.
Both strawberry and blueberrys are fruit
The low density of Betelgeuse is due to its outer layers being expanded and less compact compared to other stars. Betelgeuse is a red supergiant star in a late stage of its life cycle, causing it to have lower density as it has expanded to a large size.
Population II stars have been compared to other celestial bodies in the universe based on their orbits, which are typically more elliptical and less circular compared to other objects like planets and Population I stars. This difference in orbit shapes can provide insights into the formation and evolution of these stars and their surrounding systems.
The density of a black hole is extremely high, as all its mass is concentrated in a very small space. This makes black holes one of the densest objects in the universe. Compared to other celestial objects like stars or planets, black holes have much higher density due to their immense gravitational pull.
The size of the sun is considered average compared to other stars. There are much larger stars, known as supergiants, and smaller stars, known as dwarfs, in the universe.
Barnacles are typically small in size compared to other marine organisms, ranging from a few millimeters to a few centimeters in diameter. They are often smaller than many other marine creatures such as fish, crabs, and sea stars.