356404 For electron moving in \({n^{th}}\) orbit of the atom, the angular velocity is proportional to:

356405 An electron is moving in an orbit of a hydrogen atom from which there can be a maximum of six transitions. An electron is moving in an orbit of another hydrogen atom from which there can be a maximum of three transitions. The ratio of the velocity of the electron in these two orbits is

356406 A photon of energy 12.09 \(eV\) is absorbed by an electron in ground state of a hydrogen atom. What will be the energy level of electron? The energy of electron in the ground state of hydrogen atom is \(-\)13.6 \(eV\) .

356407 In which of the following systems will the radius of the first orbit \((n=1\) ) be minimum?

356404 For electron moving in \({n^{th}}\) orbit of the atom, the angular velocity is proportional to:

356405 An electron is moving in an orbit of a hydrogen atom from which there can be a maximum of six transitions. An electron is moving in an orbit of another hydrogen atom from which there can be a maximum of three transitions. The ratio of the velocity of the electron in these two orbits is

356406 A photon of energy 12.09 \(eV\) is absorbed by an electron in ground state of a hydrogen atom. What will be the energy level of electron? The energy of electron in the ground state of hydrogen atom is \(-\)13.6 \(eV\) .

356407 In which of the following systems will the radius of the first orbit \((n=1\) ) be minimum?

356404 For electron moving in \({n^{th}}\) orbit of the atom, the angular velocity is proportional to:

356405 An electron is moving in an orbit of a hydrogen atom from which there can be a maximum of six transitions. An electron is moving in an orbit of another hydrogen atom from which there can be a maximum of three transitions. The ratio of the velocity of the electron in these two orbits is

356406 A photon of energy 12.09 \(eV\) is absorbed by an electron in ground state of a hydrogen atom. What will be the energy level of electron? The energy of electron in the ground state of hydrogen atom is \(-\)13.6 \(eV\) .

356407 In which of the following systems will the radius of the first orbit \((n=1\) ) be minimum?

356404 For electron moving in \({n^{th}}\) orbit of the atom, the angular velocity is proportional to:

356405 An electron is moving in an orbit of a hydrogen atom from which there can be a maximum of six transitions. An electron is moving in an orbit of another hydrogen atom from which there can be a maximum of three transitions. The ratio of the velocity of the electron in these two orbits is

356406 A photon of energy 12.09 \(eV\) is absorbed by an electron in ground state of a hydrogen atom. What will be the energy level of electron? The energy of electron in the ground state of hydrogen atom is \(-\)13.6 \(eV\) .

356407 In which of the following systems will the radius of the first orbit \((n=1\) ) be minimum?