The density of the Sun is 1.408×103 kg/m3
1408 kg/m3. This is the AVERAGE density; the density in the core is greater, the density in the photosphere is less than this.
The density of Betelgeuse is extremely low: 1,119.10 ex.-8 from the density of the sun.
Earth's density: 5.515 g/cm^3 Sun's density: 1.408 g/cm^3
No. The average density of the Sun (or any object, for that matter) is found by dividing its mass by its volume. When we do this, we find that the Sun's density is 1.41 grams per cubic centimeter (only 41% denser than water). Iron has a density of 7.874 grams per cubic centimeter. So iron is over five times denser than the Sun. It's important to understand, however, that 1.41 grams per cubic centimeter is only the AVERAGE density of the Sun. Its core is much denser than that, while its outer layers are much less dense.
The Convective Zone is where all of the sun's internal movements take place. This is the thickest layer of the sun.
The average density of the Sun is about 1.41 grams per cubic centimeter. This makes it more than 12 times denser than Earth. The core of the Sun is much denser, with densities reaching 150 grams per cubic centimeter.
The density of Betelgeuse is extremely low: 1,119.10 ex.-8 from the density of the sun.
Earth's density: 5.515 g/cm^3 Sun's density: 1.408 g/cm^3
"kilometer" is a unit of length or distance, not a unit of density.
Jupiter's
No. The average density of the Sun (or any object, for that matter) is found by dividing its mass by its volume. When we do this, we find that the Sun's density is 1.41 grams per cubic centimeter (only 41% denser than water). Iron has a density of 7.874 grams per cubic centimeter. So iron is over five times denser than the Sun. It's important to understand, however, that 1.41 grams per cubic centimeter is only the AVERAGE density of the Sun. Its core is much denser than that, while its outer layers are much less dense.
The Convective Zone is where all of the sun's internal movements take place. This is the thickest layer of the sun.
The density of the Sun is similar to that of Jupiter, the largest planet in our solar system. Both the Sun and Jupiter have densely packed materials at their cores due to their high mass and gravitational forces.
A white dwarf is much denser than the Sun. White dwarfs have a typical density around 1 million times greater than the density of the Sun, resulting in a mass similar to the Sun's but packed into a much smaller volume.
Approximately 1.4 g/cm3
7.1 ppm
Like the number of sunspots, the Flux Density Values reflect the Sun's magnetic activity, which affects the rate at which the Sun radiates energy and warmth.
The average density of the Sun is about 1.41 grams per cubic centimeter. This makes it more than 12 times denser than Earth. The core of the Sun is much denser, with densities reaching 150 grams per cubic centimeter.