356586 A sample of monatomic hydrogen gas contains 100 atoms and all the atoms are in \({n}\)th excited state.As the atoms come down to the ground state following various transitions, they release a total energy of \({\dfrac{4800}{49} R {ch}}\). (where,1 \(Rch\) \({=13.6 {eV}}\)). Find the value of \({N}\), where maximum possible number of photons emitted in the process is \({7 N \times 100}\).

356587 The ionisation potential of \(H\)-atom is \(13.6\;V\). When it is excited from ground state by monochromatic radiations of \(970.6\) \( \mathop A^{~~\circ} \) the number of emission lines will be (according to Bohr's theory)

356588 In hydrogen atom, electron makes transition from \(n = 4\) to \(n = 1\) level. Recoil momentum of the \(H\) atom will be

356589 In figure the energy levels of the hydrogen atom have been shown along with some transitions marking \(A,B,C\). The transitions \(A,B\) and \(C\) respectively represents:

356586 A sample of monatomic hydrogen gas contains 100 atoms and all the atoms are in \({n}\)th excited state.As the atoms come down to the ground state following various transitions, they release a total energy of \({\dfrac{4800}{49} R {ch}}\). (where,1 \(Rch\) \({=13.6 {eV}}\)). Find the value of \({N}\), where maximum possible number of photons emitted in the process is \({7 N \times 100}\).

356587 The ionisation potential of \(H\)-atom is \(13.6\;V\). When it is excited from ground state by monochromatic radiations of \(970.6\) \( \mathop A^{~~\circ} \) the number of emission lines will be (according to Bohr's theory)

356588 In hydrogen atom, electron makes transition from \(n = 4\) to \(n = 1\) level. Recoil momentum of the \(H\) atom will be

356589 In figure the energy levels of the hydrogen atom have been shown along with some transitions marking \(A,B,C\). The transitions \(A,B\) and \(C\) respectively represents:

356586 A sample of monatomic hydrogen gas contains 100 atoms and all the atoms are in \({n}\)th excited state.As the atoms come down to the ground state following various transitions, they release a total energy of \({\dfrac{4800}{49} R {ch}}\). (where,1 \(Rch\) \({=13.6 {eV}}\)). Find the value of \({N}\), where maximum possible number of photons emitted in the process is \({7 N \times 100}\).

356587 The ionisation potential of \(H\)-atom is \(13.6\;V\). When it is excited from ground state by monochromatic radiations of \(970.6\) \( \mathop A^{~~\circ} \) the number of emission lines will be (according to Bohr's theory)

356588 In hydrogen atom, electron makes transition from \(n = 4\) to \(n = 1\) level. Recoil momentum of the \(H\) atom will be

356589 In figure the energy levels of the hydrogen atom have been shown along with some transitions marking \(A,B,C\). The transitions \(A,B\) and \(C\) respectively represents:

356586 A sample of monatomic hydrogen gas contains 100 atoms and all the atoms are in \({n}\)th excited state.As the atoms come down to the ground state following various transitions, they release a total energy of \({\dfrac{4800}{49} R {ch}}\). (where,1 \(Rch\) \({=13.6 {eV}}\)). Find the value of \({N}\), where maximum possible number of photons emitted in the process is \({7 N \times 100}\).

356587 The ionisation potential of \(H\)-atom is \(13.6\;V\). When it is excited from ground state by monochromatic radiations of \(970.6\) \( \mathop A^{~~\circ} \) the number of emission lines will be (according to Bohr's theory)

356588 In hydrogen atom, electron makes transition from \(n = 4\) to \(n = 1\) level. Recoil momentum of the \(H\) atom will be

356589 In figure the energy levels of the hydrogen atom have been shown along with some transitions marking \(A,B,C\). The transitions \(A,B\) and \(C\) respectively represents: