Tritium gas is injected into the hollow weapon pit (the "core") to boost the nuclear yield of the explosion. Weapons that use tritium injection are called "boosted weapons".
A hydrogen bomb is called so because it mainly relies on the fusion of hydrogen isotopes to release energy. The fusion process is what distinguishes it from an atomic bomb, which relies on nuclear fission.
Transmutation occurs when a fusion bomb (H-bomb) detonates: The Primary (A-bomb/fission) converts a heavy element like plutonium or uranium into lighter elements, such as strontium, etc... The Secondary (H-bomb/fusion part) converts a light element into heavier elements, like Hydrogen into Helium.
Yes, tritium water can be used as a moderator in a nuclear reactor. However, tritium itself is a radioactive isotope of hydrogen, so careful handling and safety measures are required due to its potential health risks. Research is being conducted on the use of tritium in nuclear fusion reactors, but it is not commonly used as a moderator in fission reactors.
In ordinary water, exactly 0 atoms as Tritium decays too rapidly (halflife 12.26 years) for any that was on earth when it formed (billions of years ago) to remain. In contaminated water, either deliberately or accidentally, it would depend on how much contaminate was added and the tritium concentration in it. Tritium can only be manufactured somewhere there is a high neutron flux (e.g., nuclear reactor or bomb, a star).
This nuclear weapon is called an atomic bomb or a nuclear bomb
Dry Fusion Bomb (fueled with solid Lithium Deuteride instead of cryogenic liquid Deuterium-Tritium).
The atomic bomb, nuclear fusion, helium 3, tritium, and that's about all i know
A hydrogen bomb, also known as a thermonuclear bomb, uses a combination of nuclear fission and nuclear fusion. The detonation of a fission bomb triggers the fusion of hydrogen isotopes (deuterium and tritium), releasing tremendous amounts of energy. This process results in a significantly more powerful explosion than a traditional atomic bomb, which relies solely on nuclear fission.
A hydrogen bomb is called so because it mainly relies on the fusion of hydrogen isotopes to release energy. The fusion process is what distinguishes it from an atomic bomb, which relies on nuclear fission.
Many things, but the fuels required are Uranium-233, Uranium-235, Plutonium-239, Deuterium, Tritium, and Lithium, depending on the design.
"Nucear bomb" is very broad term, and encompases all bombs or weapons which utilize the explosive potential of specific elements, either by fusion or fission.The classic "nuclear bombs" use uranium or plutonium in a fission reaction to produce an explosion, where as a hydrogen bomb uses hydrogen, or specific isotopes of it (deuterium or tritium, either together or with another light-weight element) to produce a similar explosion (though usually larger in size), by mean of nuclear fusion.So technicaly, a hydrogen bomb is a type of nuclear bomb.
A hydrogen bomb, also known as a thermonuclear bomb, is a type of nuclear weapon that derives its energy from nuclear fusion reactions. It involves the fusion of hydrogen isotopes such as deuterium and tritium, which release enormous amounts of energy. Hydrogen bombs are significantly more powerful than atomic bombs.
He helped create the nuclear bomb to bomb Hiroshima.
Too many to list, and it varies from bomb to bomb. Some are:Chemical explosivesVarious metals (e.g. aluminum, steel, copper, lead, nickel)PlasticsNylon, Kevlar, etc. (if equipped with a parachute system)Nuclear fuels (e.g. Uranium, Plutonium, Tritium gas, Lithium Deuteride)Chemicals in whatever rechargeable battery is usedetc., etc.etc.
a hydrogen bomb is based on the principle of nuclear fusion. 4 hydrogen nulcei combine to form a helium nuclei and release energy. But fusion is only possible at high temperatures. Hence a nuclear fission reaction is carried out to get a high temperature.practical hydrogen bombs actually use the solid chemical lithium deuteride, not hydrogen as their fuel. neutrons from the bomb's fissioning plutonium "sparkplug" split the lithium nuclei to produce tritium, which then undergoes fusion with the deuterium. this deuterium-tritium fusion happens at far lower temperatures and pressures than the 4 hydrogen fusion mentioned above requires.
deuterium, and tritium
In a hydrogen bomb, the process of nuclear fusion converts hydrogen atoms into energy. This occurs when the nuclei of hydrogen isotopes, such as deuterium and tritium, combine to form helium, releasing a large amount of energy in the process.