No, because at night the Sun is hidden. But the Sun's brightness prevents stars being seen in the daytime.
Because there not that hot
Yes, young stars are very hot because they are in the early stages of their formation, where gravitational collapse causes their cores to heat up significantly. As they begin nuclear fusion, temperatures can reach millions of degrees, especially in massive stars. This high temperature results in a bright, energetic output, making young stars some of the hottest objects in the universe.
Stars that are the least hot, such as red dwarfs and red giants, appear red in color. This is because they emit more red light due to their lower temperatures compared to hotter stars that emit more blue and white light.
All stars are hot. Blue stars are the hottest.
Small hot stars are classified as type O, B, or A stars based on their spectral characteristics. These stars are typically blue-white in color and have high surface temperatures and luminosities. They are also referred to as main sequence stars because they are actively fusing hydrogen into helium in their cores.
No. No stars are cold. Even the "coolest" stars have surface temperatures of thousands of degrees. Stars vary in temperature because they produce energy at different rates.
Because they are extremely hot.
Because when they are newly formed, they are very hot.
No. The stars are too hot for molecules to form. That said, some of those stars have planets and some of those planets may have water.
some stars are hotter than others because they have more hydrogen to use and create heat with. BTW- answered by a 6th grader.
Stars make their own light, but they are not cold. Stars are extremely hot. We do not feel their heat because they are incredibly distant.
because they were made from hot atoms
Because there not that hot
Yes. Stars are extremely hot. The sun is one of them. Some stars are even hotter and brighter than the sun.
White Dwarf Stars are very hot, like a ball of fire. They are dim because they are small and very far away.
Yes, young stars are very hot because they are in the early stages of their formation, where gravitational collapse causes their cores to heat up significantly. As they begin nuclear fusion, temperatures can reach millions of degrees, especially in massive stars. This high temperature results in a bright, energetic output, making young stars some of the hottest objects in the universe.
Helium exists because Hydrogen fuses into Helium in the core of hot stars.