"The core is made of hot, dense gas in the plasmic state"
No, the Earth's core does not contain plasma. The outer core is made up of molten iron and nickel, while the inner core is solid due to high pressure despite its high temperature. Plasma is a state of matter with high energy particles that are not found in significant quantities in the Earth's core.
Increase in temperature and density in the Sun's core as well as higher concentration of hydrogen nuclei would cause the fusion rate to increase.
The temperature of the sun's core, around 15 million degrees Celsius, is much hotter than the surface temperature of the sun, which is around 5500 degrees Celsius. The temperatures decrease as you move from the core to the outer layers of the sun.
The temperature of the Sun's core is estimated to be around 15 million degrees Kelvin (27 million degrees Fahrenheit). This extreme heat is generated by nuclear fusion reactions that convert hydrogen into helium.
"The core is made of hot, dense gas in the plasmic state"
It's temperature hovers around 14 million degrees Centigrade.
No, the Earth's core does not contain plasma. The outer core is made up of molten iron and nickel, while the inner core is solid due to high pressure despite its high temperature. Plasma is a state of matter with high energy particles that are not found in significant quantities in the Earth's core.
The temperature of the sun's surface is around 5,500 degrees Celsius, while the core temperature reaches about 15 million degrees Celsius.
For nuclear fusion.
The surface temperature of the sun is about 10,000 degrees Fahrenheit. However, there is an increase in temperature from the surface to the sun's core, where the temperature can reach nearly 27,000,000 degrees Fahrenheit.
Increase in temperature and density in the Sun's core as well as higher concentration of hydrogen nuclei would cause the fusion rate to increase.
helium and hydrogen
In the Sun's core.
The suns core is the innermost portion or the photosphere of the sun. It's the hottest layer and under the highest pressure, enabling nuclear fusion to take place, which produces the energy. The suns core temperature is estimated to be around 13.6 million degrees Kelvin.
No. The sun's core has a temperature of tens of millions of degrees, far hotter than any liquid. Instead it is made of highly compressed plasma.
In the Sun's core.