Nuclear bombs release energy from the nucleus of the atom, which is held together by the Strong Force. Conventional bombs release energy from the electron cloud of the atom, which is held to the nucleus by the Electromagnetic Force. The Strong Force is thousands of times stronger than the Electromagnetic Force and thus releases thousands of times as much energy.
Nuclear bombs before the 60s were referred to as atom bombs, because the term Nuclear hadn't been discover yet. Nuclear bombs today, are generally Hydrogen bombs, or fusion bombs. They are significantly more powerful, able to places about the size of Rhode Island. Atom bombs,which were mostly uranium and plutonium, lack the destructive power of Nuclear or Fusion bombs.
Thermonuclear bombs, or hydrogen bombs, are more destructive than nuclear bombs because they involve a two-stage process: a fission reaction triggers a fusion reaction, resulting in a much larger explosion. This fusion reaction releases much more energy and is more efficient at converting material into energy compared to the fission reaction alone. As a result, thermonuclear bombs are typically much more powerful and devastating than traditional nuclear bombs.
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.
First, the amount of energy released is enormous. The most powerful conventional bomb has a few tons of explosive; 7 tons perhaps. The bombs used in Hiroshima and Nagasaki had the equivalent yield of 20,000 tons of TNT. Those were more like prototypes - in the meantimes, bombs with yield of megatons (millions of tons of TNT) have been produced. The highest yield nuclear bomb tested was 52 to 58 megatons (depending on method of measurement). Also, nuclear bombs have radioactive fallout, which will contaminate the environment.
It depends on the size and type of eruption or bomb. Generally, the largest volcanic eruptions release more energy than the most powerful nuclear bombs. Volcanic eruptions can have long-lasting impacts due to the release of ash, gases, and other materials, while nuclear bombs have more immediate destructive effects in a concentrated area.
Because they are more destructive than conventional explosives.
Nuclear bombs before the 60s were referred to as atom bombs, because the term Nuclear hadn't been discover yet. Nuclear bombs today, are generally Hydrogen bombs, or fusion bombs. They are significantly more powerful, able to places about the size of Rhode Island. Atom bombs,which were mostly uranium and plutonium, lack the destructive power of Nuclear or Fusion bombs.
Thermonuclear bombs, or hydrogen bombs, are more destructive than nuclear bombs because they involve a two-stage process: a fission reaction triggers a fusion reaction, resulting in a much larger explosion. This fusion reaction releases much more energy and is more efficient at converting material into energy compared to the fission reaction alone. As a result, thermonuclear bombs are typically much more powerful and devastating than traditional nuclear bombs.
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.
Hydrogen bombs still exist and are considered among the most powerful weapons in the world. These bombs use nuclear fusion to release an immense amount of energy, and they are designed to create explosions far more destructive than atomic bombs.
Making more bombs or bigger bombs.
Nuclear bombs use nuclear fission of some heavy element, usually uranium or plutonium. Thermonuclear bombs use the detonation of a fission bomb to ignite the fusion of hydrogen. Such weapons are more powerful than ordinary nuclear weapons because nuclear fusion releases more energy than nuclear fission, and because the process of fusion itself can be used to ignite more fission.
First, the amount of energy released is enormous. The most powerful conventional bomb has a few tons of explosive; 7 tons perhaps. The bombs used in Hiroshima and Nagasaki had the equivalent yield of 20,000 tons of TNT. Those were more like prototypes - in the meantimes, bombs with yield of megatons (millions of tons of TNT) have been produced. The highest yield nuclear bomb tested was 52 to 58 megatons (depending on method of measurement). Also, nuclear bombs have radioactive fallout, which will contaminate the environment.
Both basically are the same, they can be fission or fusion bombs like Uranium,Plutonium and Hydrogen bombs. A general description would be that atomic bombs are fission bombs. Nuclear bombs are fusion bombs. Fusion bombs are more powerful weight for weight
This question could be easily misconstrued. While atomic and nuclear explosion mean the same thing, and all atomic bombs are nuclear bombs, not all nuclear bombs are atomic bombs. The more powerful nuclear bombs are hydrogen bombs, and there is a very important fundamental difference between the two. ============================================================== A bomb is fission - the splitting of an atom H bomb is fusion - the joining together of atoms (and much more powerfull)
It depends on the size and type of eruption or bomb. Generally, the largest volcanic eruptions release more energy than the most powerful nuclear bombs. Volcanic eruptions can have long-lasting impacts due to the release of ash, gases, and other materials, while nuclear bombs have more immediate destructive effects in a concentrated area.
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.