100,000,000 kilojoules
Yes, it can as the heat of the atomic bomb is at about 60 degrees throughout a mile.
An Atomic bomb is the detonator for a Hydrogen bomb to create enough heat for the fission - fusion chain reaction.
It was an atomic bomb. The city was devastated. The damage came from the heat and the radiation.
The temperature at the hypocenter of the atomic bomb in Hiroshima reached around 7,000 degrees Fahrenheit (3,870 degrees Celsius). This extreme heat generated a powerful fireball and caused widespread destruction in the city.
59.711 kilo calories of heat are produced from 250 kilojoules. 5 kilojoules are equivalent to 1 kilo calorie of heat.
When an atomic bomb explodes it forms a mushroom cloud, the explosion gives off EMP or Electro Magnetic Pulse, the explosion is huge and can destroy so much for miles, and the explosion gives off huge amounts of radiation so if you survive the explosion you can suffer or die from the radiation after the bomb blew up.
None. The amount of energy released by an atomic bomb is an infinitesimally small fraction of the amount given by that equation. The atomic bomb is based on chain reactions: fission driven by neutron chain reaction, fusion bomb driven by high heat & pressure.
The specific heat capacity of air is approximately 1.005 kilojoules per kilogram degree Celsius.
The specific heat capacity of air is approximately 1.005 kilojoules per kilogram per kelvin.
No, the atomic bomb did not create global warming. Global warming is primarily caused by human activities that increase greenhouse gas emissions, which trap heat in the Earth's atmosphere. The atomic bomb explosions released large amounts of energy and radioactivity, but did not directly contribute to global warming.
A hydrogen bomb is a fusion nuclear weapon, and the "regular" atomic bomb is a fission one. Both are an example of an "atomic bomb" in the general sense. But we know what you're asking, and here's the answer. In a fission weapon, subcritical masses of fissile material (usually plutonium) are driven together with conventional explosives to cause criticality, supercriticality and the blast. In a hydrogen bomb, the only way to get things hot enough for fusion to begin to occur is by virtue of the heat generated by a fission weapon. A fission blast will, if things are set up correctly, set off a fusion blast. Big, big, bigboom! That's the long and short of it. To build a hydrogen (fusion) weapon, you have to build a fission bomb "around" or "up against" components to cause fusion to occur in the heat of the fission reaction when that fission bomb goes off. Our sun is a gigantic fusion machine. It is similar to a hydrogen bomb in that both fuse hydrogen into helium. On the sun, it happens all the time in a continuous event. Here on earth, it's a one-shot affair and a massive boom!
The primary elements used in the atomic bomb are uranium or plutonium. These elements undergo a process called nuclear fission, where their atoms split apart, releasing a large amount of energy in the form of heat, light, and radiation. This energy is harnessed to create the explosive power of an atomic bomb.