![Calculating Energy Released in Nuclear Reactions (23.1.5) | CIE A Level Physics Revision Notes 2022 | Save My Exams Calculating Energy Released in Nuclear Reactions (23.1.5) | CIE A Level Physics Revision Notes 2022 | Save My Exams](https://cdn.savemyexams.co.uk/cdn-cgi/image/w=1920,f=auto/uploads/2020/10/WE-Calculating-energy-released-question-image_4.png)
Calculating Energy Released in Nuclear Reactions (23.1.5) | CIE A Level Physics Revision Notes 2022 | Save My Exams
![SOLVED: The energy released by the nuclear bomb that destroyed Hiroshima was equivalent to 12.4 kilotons of TNT. This is equivalent to 9.0 × 10 26 M e V . The mass SOLVED: The energy released by the nuclear bomb that destroyed Hiroshima was equivalent to 12.4 kilotons of TNT. This is equivalent to 9.0 × 10 26 M e V . The mass](https://cdn.numerade.com/previews/0a650d29-5ec0-4942-9d96-bc718a4b4fac.gif)
SOLVED: The energy released by the nuclear bomb that destroyed Hiroshima was equivalent to 12.4 kilotons of TNT. This is equivalent to 9.0 × 10 26 M e V . The mass
![SOLVED: The energy released through nuclear fission is typically much larger than typical chemical reaction Calculate the energy released for 1 mole of nuclear reaction that happens during an atomic bomb blast: SOLVED: The energy released through nuclear fission is typically much larger than typical chemical reaction Calculate the energy released for 1 mole of nuclear reaction that happens during an atomic bomb blast:](https://cdn.numerade.com/ask_images/75308fa93f8c4d058978ca8dfe4e2e7d.jpg)
SOLVED: The energy released through nuclear fission is typically much larger than typical chemical reaction Calculate the energy released for 1 mole of nuclear reaction that happens during an atomic bomb blast:
An explosion of atomic bomb releases 7.6 × 10^13J energy. If 200 MeV energy is released on fission of one ^235U atom, then the number of uranium atoms undergoing fission and the
![SOLVED:The kiloton, which is used to measure the energy released in an atomic explosion, is equal to 4.2 ×10^12 J (approximately the energy released in the explosion of 1000 tons of TNT). SOLVED:The kiloton, which is used to measure the energy released in an atomic explosion, is equal to 4.2 ×10^12 J (approximately the energy released in the explosion of 1000 tons of TNT).](https://cdn.numerade.com/previews/3d283d5a-a2f7-4710-a1ef-ff4e77121878_large.jpg)
SOLVED:The kiloton, which is used to measure the energy released in an atomic explosion, is equal to 4.2 ×10^12 J (approximately the energy released in the explosion of 1000 tons of TNT).
![Calculate the energy released in MeV in the following nuclear reaction : `._(92)^(238)Urarr._(90)^ - YouTube Calculate the energy released in MeV in the following nuclear reaction : `._(92)^(238)Urarr._(90)^ - YouTube](https://i.ytimg.com/vi/NX_10EbEw3w/maxresdefault.jpg)