Wiki User
∙ 11y agozxzcz
Wiki User
∙ 11y agoHigh temperature, high pressure, and the presence of hydrogen isotopes like deuterium and tritium are necessary conditions for the continuous fusion of hydrogen to occur in a controlled manner.
It is not available under normal conditions.
It is not available under normal conditions.
Oxygen, nitrogen, hydrogen, helium, neon, argon, carbon dioxide, and methane are gases that exist in their gaseous state at ordinary conditions.
Life as we know it would not be able to exist on Saturn due to extreme cold temperatures, lack of a solid surface, and toxic atmospheric conditions primarily composed of hydrogen and helium. However, some forms of microbial life may potentially exist in the warmer layers of Saturn's atmosphere where conditions are more favorable.
HDT
The conditions in the sun's core that allows the plasma state to exist hydrogen nuclei.
It is not available under normal conditions.
It is not available under normal conditions.
it was created by fusion during early part of the big bang. it is everywhere hydrogen is.
Yes, hydrogen is a diatomic molecule under normal conditions, meaning it exists as H2, containing two hydrogen atoms bonded together. However, in certain conditions, hydrogen atoms can exist as monatomic species, such as in the form of atomic hydrogen.
At the centre of stars.
A fusion reaction is also known as a thermonuclear reaction because it occurs at extremely high temperatures similar to those found at the core of stars.
A star, like the sun, spends much of its life producing energy, in the form of light and heat, through the fusion of hydrogen into helium. When the hydrogen is mostly used up the star moves to fusion of helium into larger (heavier) elements. At that stage the sun will become a red giant. It will then be large enough to engulf the earth's orbit, thyough well before that happens, the earth will be a burnt, lifeless "cinder".
There are 11 elements that exist as gases at ordinary conditions: hydrogen, helium, nitrogen, oxygen, fluorine, neon, chlorine, argon, krypton, xenon, and radon.
Oxygen, nitrogen, hydrogen, helium, neon, argon, carbon dioxide, and methane are gases that exist in their gaseous state at ordinary conditions.
Hydrogen molecules do exist but they are less stable than hydrogen atoms. This is because hydrogen molecules require a large amount of energy to form since hydrogen atoms are highly reactive and tend to exist independently. Additionally, hydrogen molecules can easily dissociate into individual atoms at lower temperatures.
Hydrogen peroxide is a compound, but it is too unstable to exist in pure form undermost conditions. Therefore, when encountered in a laboratory or during medical treatment, hydrogen peroxide is almost always a mixture with water.