The speed of an electron in the inner most orbit of the hydrogen (Bohr radius = 52.9 pm, me `= 9.11 xx 10^(-31) kg`) is

The energy of an electron in the first Bohr's orbit of a hydrogen atom is -2.18 xx10^(-18)J . Its energy in the second orbit would be

If the radius of electron orbit in the excited state of hydrogen atom is 476.1 pm, the energy of electron in that excited state in J is Radius and energy of electron in the first orbit of hydrogen atom are 52.9 pm and -218xx10^(-18) J respectively)

The kinetic energy of an electron in the second Bohr orbit of a hydrogen atom is [ a_(0) is Bohr radius]

The speed of the electron (in ms^(-1)) in the third orbit of hydrogen atom is approximately (mass of electron =9.1xx10^(-31)kg )

The radius of orbit of an electron and the speed of electron in the ground state of hydrogen atom are 5 . 5 xx 10 ^(-11) m and 4 xx 10^(6) ms^(-1) respectivley . Then , the orbital period of this electron in the first excited state will be . . . . . .

The force between two electrons when placed in air is equal to 0.5 times the weight of an electron. Find the distance between two electrons (mass of electron = 9.1 xx 10^(-31)kg )