A 50 megaton bomb would create a blast radius of about 7.5 miles (12 kilometers) and cause extensive damage within this area. The effects would include complete destruction of buildings, severe injuries, and fatalities, along with widespread fires and radiation fallout.
The displacement caused by a 50 megaton bomb would depend on various factors such as the type of explosion and the surrounding terrain. In general, the blast radius of a bomb of this magnitude could extend for several miles, causing widespread destruction and displacement of debris and structures in the affected area.
A pure fission atomic bomb with a yield of a megaton or more is theoretically impossible. The problem is that the chain reaction would happen spontaneously before the device could even be completely built and the bomb parts would melt, resulting in a fizzle and killing everyone building it.The first fusion atomic bomb (commonly called a hydrogen bomb) was tested in 1952 as Ivy Mike and had a 10 megaton yield. The highest yield pure fission atomic bomb ever built was also tested in 1952 as Ivy King and had a 500 kilotons yield.
The size of the area destroyed by a nuclear bomb depends on its yield. A small nuclear bomb with a yield of 1 kiloton could destroy buildings within a few city blocks, while a larger bomb with a yield of 1 megaton could impact several square miles. The damage would also vary based on the bomb's design, height of detonation, and local geography.
This is a sentence! A megaton is an explosive force of 1 million tons of TNT.
No, the largest ever built were 25 megaton warheads for the Titan II. But these were never installed on missiles, instead 9 megaton warheads were used. All Titan ICBMs are long retired and there were only 50 built total. Currently the largest yield US bombs are roughly 600 kilotons.
The displacement caused by a 50 megaton bomb would depend on various factors such as the type of explosion and the surrounding terrain. In general, the blast radius of a bomb of this magnitude could extend for several miles, causing widespread destruction and displacement of debris and structures in the affected area.
A megaton bomb is more damaging than an atomic bomb because it has a much higher explosive yield. A megaton bomb releases energy equivalent to the detonation of one million tons of TNT, while an atomic bomb typically releases energy equivalent to the detonation of thousands of tons of TNT.
Sorry, my nuclear bomb effects circular slide rule only goes up to 100MTon yield.
The largest megaton bomb ever detonated was the Soviet Union's Tsar Bomba in 1961, with a yield of about 50 megatons. It was the most powerful nuclear weapon ever created and tested.
it can blow up tekos
The 50 Megaton "Tsar Bomba" hydrogen bomb tested by the USSR in 1961 is the strongest hydrogen bomb ever detonated. The 10 Megaton "Ivy Mike" hydrogen bomb tested by the U.S. in 1952 is the physically largest hydrogen bomb ever detonated.
A pure fission atomic bomb with a yield of a megaton or more is theoretically impossible. The problem is that the chain reaction would happen spontaneously before the device could even be completely built and the bomb parts would melt, resulting in a fizzle and killing everyone building it.The first fusion atomic bomb (commonly called a hydrogen bomb) was tested in 1952 as Ivy Mike and had a 10 megaton yield. The highest yield pure fission atomic bomb ever built was also tested in 1952 as Ivy King and had a 500 kilotons yield.
The size of the area destroyed by a nuclear bomb depends on its yield. A small nuclear bomb with a yield of 1 kiloton could destroy buildings within a few city blocks, while a larger bomb with a yield of 1 megaton could impact several square miles. The damage would also vary based on the bomb's design, height of detonation, and local geography.
Salt Lake City covers an area of 110.4 square miles. To simplify the calculation I will assume this is circular (which it isn't). Thus the estimated radius of the city is 5.9 miles. 5 psi dynamic maximum overpressure (which will damage or destroy most conventional structures) can be produced at this range by a 25 megaton bomb. 50 psi dynamic maximum overpressure (which will destroy all but hardened structures) can be produced at this range by a 400 megaton bomb. No bomb of this yield has ever been built. Fires ignited by thermal radiation can be produced at this range by a 1 megaton bomb and it is likely these could merge into a firestorm that would destroy the city. However it is very unlikely that a single bomb would be used, instead six to ten 100 kiloton to 300 kiloton bombs scattered across the area would produce more damage at less cost.
Well i did some rough estimates...prob be like 56 milesA blast radius is equal to the square root of the megatonage. A 1 megaton bomb has a blast radius of severe damage of about 4 miles. Therefore a 200 megaton bomb (14 being about the square root) would have about a 56 mile radius. Though direct exposure to the explosion at that distance could probably still cause severe burns and it would probably cause damage as much as 200 miles out.
Megaton is a measurement of yield. Atomic bomb is a type of bomb and can have a wide range of yields.Your question is equivalent to asking "Which is greater a tablespoon or a disposable plastic picnic spoon?" Tablespoon is a measurement of volume. Disposable plastic picnic spoon is a type of spoon.You cannot compare incompatible things.
That depends on the cube root of the yield. The fireball of a 10 megaton bomb reaches about 3 miles diameter.