The bomb did not have tnt. The atomic power is measurred using tnt was the base. TNT is a unit of energy equal to 4.184 gigajoules, which is approximately the amount of energy released in the detonation of one ton of TNT, and a bomb with one kiloton has the blast compared to one ton of tnt.
The total energy released by the four main events of the Krakatoa explosion in 1883 eruption was equivalent to 200 megatons of TNT. Hiroshima was 15 kilotons. This will help you visualize the unit of both.
Depends on the yield, which varies from one design to another and from one configuration to another of each design. For example the MK-5 bomb introduced in 1952 and removed from stockpile by 1963 had at least 3 different yields depending on the pit use: ~20KTons, ~40KTons, and ~70KTons. The Castle Bravo test shot was 15MTons!There is NO nominal atomic bomb!
The Tsar Bomba is the nickname given to the Russian A602 hydrogen bomb. It was the most powerful nuclear weapon ever detonated, with the October 30, 1961 test remaining as the most powerful artificial explosion in human history. Its blast yield had an equivalency of 50 to 58 megatons of TNT (or 210 to 240 Petajoules).
That depends on what you mean by "bigger":physically, no. in WW2 the bombs were about 10 feet long and 5 feet in diameter and weighed about 5 tons, modern bombs can be built 3 feet long and 18 inches in diameter and weigh about 600 pounds (much smaller bombs than that have been built, including a bomb 1 foot in diameter and weighing 50 pounds)yield, generally but not always. in WW2 the bombs had a yield of about 20000 tons of TNT equivalent, modern bombs typically vary in yield from about 10000 to about 300000 tons of TNT equivalent (bombs have been built with yields as low as 10 tons of TNT equivalent to as high as 52000000 tons of TNT equivalent)
100
Most nuclear bombs can be as strong as 20 kilotons (20,000 tons of TNT) up to 60 Megatons (60,000,000 tons of TNT).
The Little Boy atomic bomb dropped on Hiroshima exploded with an energy of about 15 kilotons of TNT (~6 × 10^13 joules) During the Cold War, the United States developed hydrogen bombs with a maximum theoretical yield of 25 megatons (~10^15 Joules) A Supernova releases as much energy as the Sun emits in it's entire life or 1044 joules which is about ten octillion megatons of TNT (~10^28 joules) So you'd need about 10 trillon (~10^13) of the most powerful hydrogen bombs to equal a supernova. The most powerful hydrogen bomb was the Tsar Bomb created by the Soviet Union. It was designed to output over 100 megatons of TNT but was reduced to 50 megatons in order to reduce fall out.
The Tsar Bomba or also known as the AN602 Hydrogen bomb.Developed by the Soviet Union, the bomb was originally designed to have a yield of about 100 megatons of TNT (420 PJ), but the yield was reduced to 50 megatons in order to reduce nuclear fallout. This attempt was successful, as it was one of the cleanest (relative to its yield) nuclear bombs ever detonated.
The answer, as it turns out, is on the order of one trillion-trillion megatons of TNT; that is to say, 10-to-the-thirtieth tons of TNT, equal to a one followed by thirty zeroes. Another way of saying that is one million yottatons of TNT; one yottaton is equal to 10-to-the-24th tons. The energy released in such a cataclysmic explosion would be: 4.184 * 10-to-the-39th Joules. The bomb dropped on Hiroshima, by contrast, was only about 15 kilotons of TNT.
The biggest bomb was the Tsar bomba, it used around 50MT (megatons) of TNT which is the same as all bombs dropped in WW2 times 10x, it was capable of destroying 30-40 miles of territory without any large deposits of radiation.
Answera lot AnswerNuclear bombs are rated by equivalent energy of numbers of tons, kilotons (1000 tons) or megatons (1,000,000 tons) of TNT, which is a chemical explosive. The energy in a ton of TNT is about 4.184 terajoules. The smallest nuclear bombs are quite small. They are tactical weapons designed to be fired by a small crew and used at relatively close range. The Davy Crockett is one such weapon. It weighed 51 pounds (23 kg), had a three person crew and was intended to be used with a device that would send it 1.25 to 2.5 miles (roughly 2 to 4 km). It is rated at 10 or 20 tons of TNT, selectively.The weapons used in Japan during World War II were rated at 12-15 kilotons of TNT (at Hiroshima) and 20-22 kilotons of TNT (at Nagasaki).The largest nuclear bomb ever tested was the Soviet Tsar Bomba, at 50 megatons of TNT. It was designed so that, with alteration of materials used, it could yield 100 megatons of TNT.
If you are talking about the most powerful ever than it is the Tsar Bomba.It was a soviet bomb whose explosive force had been halved to 50 megatons or 50 million tons of tnt. It was originakky to have a force of 100 megatons but the explosion was decided to be too large and the plane wouldn't get out in time. Today the biggest one probably has a force of less than 15 megatons.
It may take a thousand of tons on TNT to pack a nuclear bomb. But to destroy the earth, it may take billions to trillions tons of TNT plus a nuclear igniter to blow the earth to bits of dust.
The most powerful nuclear weapon ever detonated was the Russian "Tsar Bomba" in 1961. (50 Megatons) It had a yield of 100 megatons of TNT, but was reduced to avoid fallout. People 100 km away would have gotten third degree burns from the heat of the explosion.
That is called Yield and it varies with design. I know of tested bomb designs with yields from 100 Tons to 50 Megatons TNT equivalent.
That is difficult to predict, but 500 tons of TNT is half a kiloton. Half a kiloton of TNT could probably flatten eight square blocks of a city - maybe more.