The core of the sun is about 15 million Kelvin.
No, lightning is not hotter than the core of the sun. Lightning can reach temperatures of around 30,000 kelvin (53,540 degrees Fahrenheit), while the core of the sun reaches temperatures of about 15 million kelvin (27 million degrees Fahrenheit).
The corona is the hottest layer of the sun because it is located furthest from the sun's surface and gets heated up by the sun's magnetic field. This causes the temperature to rise to millions of degrees Celsius. The exact mechanism behind why the corona is so hot is still not completely understood by scientists.
The temperature of the Sun's photosphere (visible surface layer) is around 5,500 degrees Celsius. In the Sun's core, where nuclear fusion occurs, temperatures can reach up to 15 million degrees Celsius.
27 million
The Earth's core is hot like the sun due to intense pressure and radioactive decay. While the inner core reaches temperatures similar to the surface of the sun, the outer core is significantly cooler. The Earth's core mostly consists of iron and nickel, which contribute to its high temperatures.
The temperature is sun's core is about 157,000,000 kelvin or 282,599,540 Fahrenheit
I beleive it is 5,788 degrees Kelvin on the surface The inner core exeeds 5 million degrees Kelvin
None. The Sun's core is somewhere around 15 million Kelvin; the Sun's Corona can get quite hot - perhaps a million Kelvin, despite the fact that the lower layers are much cooler. But I don't think any part of the Sun reaches 100 million Kelvin.None. The Sun's core is somewhere around 15 million Kelvin; the Sun's Corona can get quite hot - perhaps a million Kelvin, despite the fact that the lower layers are much cooler. But I don't think any part of the Sun reaches 100 million Kelvin.None. The Sun's core is somewhere around 15 million Kelvin; the Sun's Corona can get quite hot - perhaps a million Kelvin, despite the fact that the lower layers are much cooler. But I don't think any part of the Sun reaches 100 million Kelvin.None. The Sun's core is somewhere around 15 million Kelvin; the Sun's Corona can get quite hot - perhaps a million Kelvin, despite the fact that the lower layers are much cooler. But I don't think any part of the Sun reaches 100 million Kelvin.
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.
Yes it has a core temperature of 157,000,000 Kelvin. That's 282,599,540 degrees fahrenheit! The heat does indeed come from the center of the sun by a fusion reaction of hydrogen.
The temperature at the Sun's core is about 15 million degrees Kelvin. This extreme heat is generated by nuclear fusion reactions that convert hydrogen into helium.
The Sun is about the same temperature all year 'round, that is, 15.7 million degrees Kelvin on the interior, and about 5800 million degrees Kelvin on its surface.
A temperature of 3000 degrees Kelvin is quite hot. For reference, the surface of the sun is around 5800 Kelvin. At 3000 Kelvin, most materials would be glowing red-hot or even white-hot depending on their composition.
No, lightning is not hotter than the core of the sun. Lightning can reach temperatures of around 30,000 kelvin (53,540 degrees Fahrenheit), while the core of the sun reaches temperatures of about 15 million kelvin (27 million degrees Fahrenheit).
The sun's core can range to a temperature of around 27 million degrees Fahrenheit.
Nitrogen is as hot or as cold as its surroundings. Molecular nitrogen, N2, won't withstand a temperature of several million kelvin; but atomic nitrogen certainly will.
The core of the Sun is considered to extend from the center to about 0.2 to 0.25 solar radius. It is the hottest part of the Sun and of the Solar System. It has a density of up to 150,000 kg/m³ (150 times the density of liquid water) and a temperature of close to 15,000,000 kelvin (by contrast, the surface of the Sun is close to 6,000 kelvin). The core is made of hot, dense gas in the plasmic state. The core, inside 0.24 solar radius, generates 99% of the fusion power of the Sun.