The most powerful hydrogen bomb ever built had a 50 megaton yield (USSR "Tsar Bomba" 1961), the most powerful hydrogen bomb ever built by the U.S. had a 20 megaton yield ("dirty" high yield warhead for the Titan ICBM, only tested in reduced yield 9 megaton "clean" version).
The typical hydrogen bomb in stockpile today is only about 100 kiloton to 300 kiloton as it had been demonstrated that yields higher than this really have little practical military value and actually produce less damage than lower total yield in multiple weapons detonated at multiple locations across the target area.
A hydrogen bomb is approximately 4.87 times more powerful than an atom bomb. What makes these bombs so powerful is that hydrogen is an extremely inflammable and explosive gas. When the bomb is released, the special coating used on its shell captures tons of friction, which heats the bomb. Then the detonator button is pressed, and the bomb blows up. Also, if the bomb comes in contact with the ground, before the button is pressed, then the heat absorbed by the bomb will set fire to the hydrogen inside and blow the bomb up.
A hydrogen bomb, also known as a thermonuclear bomb, uses isotopes of hydrogen such as deuterium and tritium. These isotopes undergo fusion reactions to release a huge amount of energy, which is the principle behind the explosive power of a hydrogen bomb.
The hydrogen bomb was first successfully tested in 1952 by the United States.
There is no such thing. The hydrogen bomb is a very complicated mechanism, not a chemical!
The hydrogen bomb was invented by a team of American scientists led by Edward Teller. The first successful test of the hydrogen bomb was conducted by the United States in 1952.
A hydrogen bomb (thermonuclear bomb) is more destructive than a regular nuclear bomb (fission bomb). Hydrogen bombs release much larger amounts of energy and have the potential to create significantly more devastation and damage.
A hydrogen bomb is more destructive than an atom bomb. A hydrogen bomb releases much more explosive energy through nuclear fusion reactions, whereas an atom bomb relies on nuclear fission reactions. As a result, a hydrogen bomb can produce a significantly larger explosion and more widespread damage.
A hydrogen bomb is, by far, the most destructive weapon that mankind has ever invented. It is the most powerful type of nuclear bomb.
Yes, the hydrogen bomb is more destructive than the atom bomb. This is because it relies on nuclear fusion, which releases much more energy than nuclear fission, the process used in atomic bombs. The sheer power of the hydrogen bomb makes it capable of causing significantly greater devastation.
A hydrogen bomb is more destructive than an atomic bomb because it has hydrogen. Hydrogen is highly flammable, and if a hydrogen bomb exploded with enough force and just enough fire, a huge wide area of a fiery explosion will occur. This is more destructive than the atomic bomb. Fire basically engulfs everything and destroys all in its path, making for an effective bomb.-----------------------------------------------------------------------------------------------------------------------------------Wrong!Hydrogen does not burn in a hydrogen bomb, it fuses releasing atomic energy too. This fusion reaction is over in microseconds, much faster than combustion can start; also it reaches temperatures in the tens of millions of degrees, much hotter than any chemical fire or fission bomb. The reason a fusion bomb is usually more destructive than a fission bomb is the fusion bomb has no upper limit on yield, the fission bomb cannot be built with a yield over 1 megaton. One can just keep adding fusion stages until you get the desired yield.
The H-Bomb, or Hydrogen Bomb, has never been used in warfare- the bombs dropped on japan at the end of WW2 were ATOMIC bombs, which are not as destructive. The Hydrogen Bomb is very much more powerful than the atom bomb, and has only ever been exploded in tests. For full information, Google 'US Hydrogen Bomb' and see what comes up.
The principle of a hydrogen bomb involves the fusion of hydrogen isotopes (deuterium and tritium) to release an immense amount of energy. This fusion reaction is triggered by the intense heat and pressure generated by a fission reaction, typically from a plutonium or uranium bomb. The result is a highly powerful and destructive explosion.
The main purpose of the hydrogen bomb was to create a much more powerful and destructive nuclear weapon than the atomic bomb. It was designed to release energy from nuclear fusion reactions, which is many times greater than that of nuclear fission reactions used in atomic bombs.
The main difference between atomic bombs and hydrogen bombs is the source of their energy. Atomic bombs rely on nuclear fission (splitting atoms), while hydrogen bombs use a two-stage process involving both fission and fusion (combining atoms). Hydrogen bombs are more powerful and destructive than atomic bombs.
A hydrogen bomb is approximately 4.87 times more powerful than an atom bomb. What makes these bombs so powerful is that hydrogen is an extremely inflammable and explosive gas. When the bomb is released, the special coating used on its shell captures tons of friction, which heats the bomb. Then the detonator button is pressed, and the bomb blows up. Also, if the bomb comes in contact with the ground, before the button is pressed, then the heat absorbed by the bomb will set fire to the hydrogen inside and blow the bomb up.
Yes, fusion reactions occur in a hydrogen bomb, which is a type of nuclear bomb. The high temperatures and pressures generated by the fission reaction in the bomb can trigger fusion reactions between hydrogen isotopes. This fusion reaction releases a large amount of energy, contributing to the destructive power of the bomb.
What size of Hydrogen Bomb? How many megatons? the biggest size of hydrogen bomb can done ...........