(ε 0) = 8.854185×10^−12 kg^−1m^−3 A^2 ]
The radius of the second Bohr orbit for hydrogen atom is: [Given: Planck’s constant. h=6.6262×10^−34 Js; mass of electron = 9.1091×10^−31kg; charge of electron, e=1.60210×10^−19 C; permittivity of vacuum, (ε 0) = 8.854185×10^−12 kg^−1m^−3 A^2 ]
09
Nov
The radius of the second Bohr orbit for hydrogen atom is: [Given: Planck’s constant. h=6.6262×10^−34 Js; mass of electron = 9.1091×10^−31kg; charge of electron, e=1.60210×10^−19 C; permittivity of vacuum, (ε 0) = 8.854185×10^−12 kg^−1m^−3 A^2 ] (ε 0) = 8.854185×10^−12 kg^−1m^−3 A^2 ] e=1.60210×10^−19 C; permittivity of vacuum The radius of the second Bohr orbit [...]