where e is the electronic charge. It makes a closest approach of 10fm to the nucleus. The de Broglie wavelength (in units of fm) of the proton at its start is (Take the proton mass

Sahay Sir > Question Answers > where e is the electronic charge. It makes a closest approach of 10fm to the nucleus. The de Broglie wavelength (in units of fm) of the proton at its start is (Take the proton mass
A proton is fired from very far away towards a nucleus with charge Q=120 e, where e is the electronic charge. It makes a closest approach of 10fm to the nucleus. The de Broglie wavelength (in units of fm) of the proton at its start is (Take the proton mass, mp=(5/3)×10^−27kg, Js/c, 1/4πε0=9×10^9m/F, 1 fm=10^−15m)
15
Sep
A proton is fired from very far away towards a nucleus with charge Q=120 e, where e is the electronic charge. It makes a closest approach of 10fm to the nucleus. The de Broglie wavelength (in units of fm) of the proton at its start is (Take the proton mass, mp=(5/3)×10^−27kg, Js/c, 1/4πε0=9×10^9m/F, 1 fm=10^−15m) [...]
Posted in: Chapter 18 - Atoms and Nuclei , JEE Mains Physics 2002-2019 Solved Video Solutions ,
Tags: 1 fm=10^−15m) , 1/4πε0=9×10^9m/F , A proton is fired from very far away towards a nucleus with charge Q=120 e , Js/c , mp=(5/3)×10^−27kg , where e is the electronic charge. It makes a closest approach of 10fm to the nucleus. The de Broglie wavelength (in units of fm) of the proton at its start is (Take the proton mass ,