mple 18.) ution : Find the kinetic energ...

mple 18.) ution : Find the kinetic energy potential energy and total energy in first and second orbit of hyuruyen atom if potential energy in first orbit is taken to be zero. E1 = - 13.60 eV K1 = - Ev = 13.60 eV U1 = 2E1 = -27.20 eV 1=-3.40 eV K2 = 3.40 eV and U2 = -6.80 eV 2- 1212 - Now U1 = 0, i.e., potential energy has been increased by 27.20 eV while kinetic energy will remain unchanged. So values of kinetic energy, potential energy and total energy in first orbit are 13.60 eV, 0, 13.60 respectively and for second orbit these values are 3.40 eV, 20.40 eV and 23.80 eV.

Similar Questions

Explore conceptually related problems

The energy of the electron in the first orbit of hydrogen atom is -13.6 eV. Its potential energy is

Potential energy is -27.2eV in second orbit of He; then calculate double of total energy in first excited state of hydrogen atom :-

In hydrogen atom, the total energy of an electron in a given orbit is -1.5eV. The potential energy in the same orbit is

The potential energy of an electron in the second Bohr's orbit of the He^(+) ion having total energy -3.4 eV is:-

The total energy of an electron in the first excited state of H atom is - 3.4 eV, then its potential energy in this state is ...eV.

The energy on the first Bohr.s orbit is 27.2 eV. What will be the energy in the third orbit?

The energy of the electron in the third orbit of H-atom is -1.51 eV. The energy of the electron in first orbit is

The potential energy of the electron in the first Bohr orbit in the hydrogen atom is -27.2 eV. What is its kinetic energy in the same orbit?

It the energy of 1st Bohr orbit be 13.6eV of a hydrogen atom, then calculate the energy for 2nd orbit in Joule.