Depends entirely on its yield.
Some hydrogen bombs had yields less than 1MT, some more. Others could provide a wide range of yields, all in one bomb. The user just needed to select the best yield for the particular application.
So a 1MT bomb would have a blast radius of several 10s of miles, a 50MT bomb would have a blast radius of 100's of miles. The curvature of the Earth can help protect from heat and radiation, but the blast wave can reach beyond the horizon due to atmospheric focusing.
The blast radius of a nuclear bomb can vary depending on factors such as the type and yield of the bomb, as well as the environment in which it detonates. However, the blast radius of a typical nuclear bomb can extend for miles, causing significant destruction and casualties.
The blast radius of an atomic bomb can vary depending on the size of the bomb and the height at which it detonates. In general, the blast radius of a nuclear bomb can extend for several miles, causing destruction within a radius of 1-5 miles or more. It can cover an area of several square miles, destroying buildings and causing severe damage within that zone.
The blast radius of a nuclear bomb can vary depending on its size and type, but typically ranges from a few kilometers to tens of kilometers. The impact of a nuclear bomb also includes heat, radiation, and fallout, which can affect areas beyond the immediate blast radius.
The explosion radius of a nuclear bomb can vary depending on its size and design, but a typical range for a strategic nuclear weapon is a blast radius of several miles and a thermal radiation radius of several more miles. The effects of the blast, heat, and radiation can cause widespread destruction and casualties over a large area.
Trick question. The answer is vastly simplified--perhaps to the point of inaccuracy.Having worked on a system that carried either payload, I can tell you that a hydrogen device will produce a larger blast radius with less long term radiation than the same physically sized uranium or plutonium device, but that efficient detonation does not occur until above the 50 kiloton range--not much of an issue when the average size of the devices of the five NPT states is taken into account. Much of the radiation released by a hydrogen reaction is in the form of heat, hence the term thermo-nuclear. All hydrogen bombs are fusion bombs. Solely uranium and plutonium bombs are fission devices. The difference is in the reaction (fission splits the atom, fusion compresses two hydrogen atoms into a helium atom--similar to the mechanism of stars). Additionally, all hydrogen bombs also have a fissile component that is used to compress and initiate the fusion reaction.
The blast radius of a nuclear bomb can vary depending on factors such as the type and yield of the bomb, as well as the environment in which it detonates. However, the blast radius of a typical nuclear bomb can extend for miles, causing significant destruction and casualties.
150 yards
Little Boy was the nuclear bomb detonated over Hiroshima. It used uranium and had an explosive blast equivalent to 12,500 tons of TNT. A 1 megaton hydrogen bomb, hypothetically detonated on the earth's surface, has about 80 times the blast power of that 1945 explosion. Considering the tonnage of a bomb to be contant, The blast radius varies dependent on whether it is a ground burst or an airburst. Further, the height of the airburst above ground affects the radius too. At a height of 1900 feet above ground, Little Boy produced a blast radius of 1 mile; an area of some 4.7 square miles.
The blast radius of an atomic bomb can vary depending on the size of the bomb and the height at which it detonates. In general, the blast radius of a nuclear bomb can extend for several miles, causing destruction within a radius of 1-5 miles or more. It can cover an area of several square miles, destroying buildings and causing severe damage within that zone.
Impossible to answer. What type bomb, what explosive, what height detonation, etc.
150 yards- 6 super bowl stadiums
It has a blast radius of 160m to 250m. The bomb weighs 5 kg containing 1.2 kg of HE. The missile is 11.2 m long and has a diameter if 0.88m.
The blast radius of a nuclear bomb can vary depending on its size and type, but typically ranges from a few kilometers to tens of kilometers. The impact of a nuclear bomb also includes heat, radiation, and fallout, which can affect areas beyond the immediate blast radius.
The explosion radius of a nuclear bomb can vary depending on its size and design, but a typical range for a strategic nuclear weapon is a blast radius of several miles and a thermal radiation radius of several more miles. The effects of the blast, heat, and radiation can cause widespread destruction and casualties over a large area.
Trick question. The answer is vastly simplified--perhaps to the point of inaccuracy.Having worked on a system that carried either payload, I can tell you that a hydrogen device will produce a larger blast radius with less long term radiation than the same physically sized uranium or plutonium device, but that efficient detonation does not occur until above the 50 kiloton range--not much of an issue when the average size of the devices of the five NPT states is taken into account. Much of the radiation released by a hydrogen reaction is in the form of heat, hence the term thermo-nuclear. All hydrogen bombs are fusion bombs. Solely uranium and plutonium bombs are fission devices. The difference is in the reaction (fission splits the atom, fusion compresses two hydrogen atoms into a helium atom--similar to the mechanism of stars). Additionally, all hydrogen bombs also have a fissile component that is used to compress and initiate the fusion reaction.
Everything within the blast radius, which is about 10-15 miles, will die.
Nuclear bombs is all types of bombs that use nuclear energy. It is not a type of bomb,just a category of bombs. hydrogen bomb is the strongest bomb ever, and its blast yield can go up to 100megatons of TNT.