Learn production processes and nuclear bomb power
The destructive power of atomic bombs (nuclear bombs) stems from tiny nuclei of protons, neutrons and electrons.
The destructive power of atomic bombs (nuclear bombs) stems from tiny nuclei of protons, neutrons and electrons.
The selected U-235 isotope is due to its ability to receive very high free neutrons. The process of receiving and decaying happens very quickly.
In order to be able to operate, uranium materials need to be "enriched", which means increasing the ratio of U-235 isotopes. At the level of nuclear weapons, U-235 isotopes must account for over 90% of the main material.
Only U-235 isotopes in uranium are capable of fission (to make bombs). Natural uranium consists mainly of U-238 isotopes and only 0.7% of U-235 isotopes.
The structure of a simple fission bomb consists of a small U-235 warhead and a spherical U235 material block, when the warhead meets the material block it will create critical mass and activate the reaction process. fission chain.
- Establishing a center for communication on nuclear power
- Benefits and harms when producing electricity from nuclear energy
- Russia tested floating nuclear power plant
- Super nuclear bomb has the most explosive power in the world
- Vietnam nuclear power needs to have standards
- Wind power is now cheaper than nuclear power
- Learn about nuclear power technology
- Situation of world nuclear technology
- China will maintain the development of nuclear power
- The most powerful thermonuclear bombs in the world
Strange minerals reveal the day the Earth became 'hell' because of asteroids Remove the atomic bomb nib - the world's most cold-haired job National Geographic: 20 million tons of TNT cannot Meteors exploded near the US air base The most atomic bombing place on the planet: 10,000 years of danger! Russia developed a more secret weapon than a nuclear bomb Small nuclear war also killed billions of people Inside the nuclear bomb shelter in Japan