The corona is much hotter than the photosphere, yet we have to wait for
a total solar eclipse to see the corona. Why is that?
The density of the Sun is 1.408×103 kg/m31408 kg/m3. This is the AVERAGE density; the density in the core is greater, the density in the photosphere is less than this.
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 average density of Jupiter is 1.3 (g/cm3), which is about one fourth as dense as the planet Earth. Jupiter is the largest planet in our solar system and the closest gas giant to the sun.
Earth's density: 5.515 g/cm^3 Sun's density: 1.408 g/cm^3
The density of Betelgeuse is extremely low: 1,119.10 ex.-8 from the density of the sun.
The density of the Sun is 1.408×103 kg/m31408 kg/m3. This is the AVERAGE density; the density in the core is greater, the density in the photosphere is less than this.
Nothing, really. The Sun is average in size, temperature, and density. Its an all around average star.
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.
A white dwarf is several hundred billion times denser than the average density of the sun.
It depends on what part of the sun you sample. On average, yes. The average density of the sun is about 1.4 times the density of water, more than 1,000 times denser than air. The outermost part of the sun is far lass dense than air while the core is far denser than even the densest substances on Earth.
The average density of Jupiter is 1.3 (g/cm3), which is about one fourth as dense as the planet Earth. Jupiter is the largest planet in our solar system and the closest gas giant to the sun.
Density depends on laminant, which is why there is no average density for CFRP
Earth's density: 5.515 g/cm^3 Sun's density: 1.408 g/cm^3
The density of Betelgeuse is extremely low: 1,119.10 ex.-8 from the density of the sun.
The sun has an approximate density of 1.4 g cm-3. It is only an approximation because the sun's density varies.
The moon's average density is about the same as the density of mantle of the Earth.
An object of one solar mass cannot become a neutron star.