Stars get their energy from nuclear fusion - mainly, hydrogen to helium.
Stars get their energy from nuclear fusion - mainly, hydrogen to helium.
Stars get their energy from nuclear fusion - mainly, hydrogen to helium.
Stars get their energy from nuclear fusion - mainly, hydrogen to helium.
Stars get their energy from nuclear fusion - mainly, hydrogen to helium.
The stars shone brightly in the sky.
Dimly
All stars 'burn' hydrogen
No, we revolve around a 'yellow dwarf'; whereas most of the stars (in our Milky Way Galaxy) are red dwarves, which do not burn as brightly as our Sun. See the related link(s) listed below for more information:
The Sun does not burn like a fire, the process that goes on in the Sun (and almost all stars) is the fusion of Hydrogen into Helium and Helium to Lithium etc. There is a lot of Hydrogen in the Sun. It will take another 4 or 5 billion years for most of it to be converted into heavier elements.
The stars shone brightly in the sky.
it's agressively active to simple air, if exposed, it will burn extremely brightly it's agressively active to simple air, if exposed, it will burn extremely brightly
Stars Shine Brightly Shine is a verb and the grammar to describe a verb is an adverb. Therefore, we have to use Brightly
Stars don't burn in the sense we are use to here on Earth. They do not combine oxygen with a fuel to generate energy. Stars shine brightly because they take atoms (in the case of our Sun - hydrogen atoms) and squeeze them together under tremendous temperatures and pressure from gravity, forcing them to fuse into heavier atoms - helium for our star. There is an extra bit of mass that is converted to energy in this process by Einstein's E=MC2, which generates the heat and light we see and feel.
The cast of Burn Brightly - 2013 includes: Joey Luthman as Andy Shaw Demarius Mack as Danny Hammersmith
Shorter. More massive stars have much higher temperatures and pressures. Although they have a lot more fuel, it is consumed at a much higher rate than lower mass stars. They burn very brightly and hot, but for less time.
Dimly
All stars 'burn' hydrogen
It is a small fish that you can burn and it burns brightly.
No, we revolve around a 'yellow dwarf'; whereas most of the stars (in our Milky Way Galaxy) are red dwarves, which do not burn as brightly as our Sun. See the related link(s) listed below for more information:
The sun
The suns mass. More massive stars have much higher temperatures and pressures. Although they have a lot more fuel (hydrogen), it is consumed at a much higher rate than lower mass stars. They burn very brightly and hot, but for less time.