How big was the atom bomb in Hiroshima?
On August 6, 1945, the American bomber Enola Gay dropped a five-ton bomb over the Japanese city of Hiroshima. A blast equivalent to the power of 15,000 tons of TNT reduced four square miles of the city to ruins and immediately killed 80,000 people.
How big is the blast radius of a nuclear bomb?
In a typical air burst, where the blast range is maximized to produce the greatest range of severe damage, i.e. the greatest range that ~10 psi (69 kPa) of pressure is extended over, is a GR/ground range of 0.4 km for 1 kiloton (kt) of TNT yield; 1.9 km for 100 kt; and 8.6 km for 10 megatons (Mt) of TNT.
What is the strongest bomb?
Tsar Bomba (50 Megatons) The RDS-220 Hydrogen Bomb (Affectionately dubbed the “Tsar Bomba”) was the most powerful nuclear bomb ever built and was detonated by the Soviet Union on 30 October 1961 over Novaya Zemlya, just north of the Matochkin Strait.
What is the most powerful bomb on earth?
Tsar Bomba
Tsar Bomba: The Most Powerful Nuclear Weapon Ever Built. On October 30, 1961, a specially equipped Soviet Tu-95 bomber flew toward Novaya Zemlya, a remote chain of islands in the Arctic Ocean that the U.S.S.R.
Is the Fukushima reactor still leaking?
ARE THERE UNDERGROUND LEAKS? Since the disaster, contaminated cooling water has constantly escaped from the damaged primary containment vessels into the reactor building basements, where it mixes with groundwater that seeps in. The water is pumped up and treated.
Does Russia still have Tsar Bomba?
Because only one bomb was built to completion, that capability has never been demonstrated. The remaining bomb casings are located at the Russian Atomic Weapon Museum in Sarov and the Museum of Nuclear Weapons, All-Russian Scientific Research Institute Of Technical Physics, in Snezhinsk.
Do hydrogen bombs use fusion?
thermonuclear bomb, also called hydrogen bomb, or H-bomb, weapon whose enormous explosive power results from an uncontrolled self-sustaining chain reaction in which isotopes of hydrogen combine under extremely high temperatures to form helium in a process known as nuclear fusion.