307462 How many electrons could be held in the second shell of an atom if the spin quantum number \({\mathrm{\left(\mathrm{m}_{\mathrm{s}}\right)}}\) could have three values instead of just two?

307463 The total number of orbitals associated with theM -shell is

307464 Maximum number of electrons in a sub-shell with \({\rm{l = 3}}\) and \({\rm{n = 4}}\) is

307465 Given \({\rm{(1)}}{\mkern 1mu} {\rm{n = 5,}}\,\,{{\rm{m}}_{\rm{l}}}{\rm{ = + 1}}\)
\({\rm{(2)}}{\mkern 1mu} {\mkern 1mu} {\rm{n = 2,l = 1,}}\,\,{{\rm{m}}_{\rm{l}}}{\rm{ = - 1,}}\,\,{{\rm{m}}_{\rm{s}}}{\rm{ = - 1/2}}\)
The maximum number of electron (s) in an atom that can have the quantum numbers as given in (1) and (2) are respectively.

307462 How many electrons could be held in the second shell of an atom if the spin quantum number \({\mathrm{\left(\mathrm{m}_{\mathrm{s}}\right)}}\) could have three values instead of just two?

307463 The total number of orbitals associated with theM -shell is

307464 Maximum number of electrons in a sub-shell with \({\rm{l = 3}}\) and \({\rm{n = 4}}\) is

307465 Given \({\rm{(1)}}{\mkern 1mu} {\rm{n = 5,}}\,\,{{\rm{m}}_{\rm{l}}}{\rm{ = + 1}}\)
\({\rm{(2)}}{\mkern 1mu} {\mkern 1mu} {\rm{n = 2,l = 1,}}\,\,{{\rm{m}}_{\rm{l}}}{\rm{ = - 1,}}\,\,{{\rm{m}}_{\rm{s}}}{\rm{ = - 1/2}}\)
The maximum number of electron (s) in an atom that can have the quantum numbers as given in (1) and (2) are respectively.

307462 How many electrons could be held in the second shell of an atom if the spin quantum number \({\mathrm{\left(\mathrm{m}_{\mathrm{s}}\right)}}\) could have three values instead of just two?

307463 The total number of orbitals associated with theM -shell is

307464 Maximum number of electrons in a sub-shell with \({\rm{l = 3}}\) and \({\rm{n = 4}}\) is

307465 Given \({\rm{(1)}}{\mkern 1mu} {\rm{n = 5,}}\,\,{{\rm{m}}_{\rm{l}}}{\rm{ = + 1}}\)
\({\rm{(2)}}{\mkern 1mu} {\mkern 1mu} {\rm{n = 2,l = 1,}}\,\,{{\rm{m}}_{\rm{l}}}{\rm{ = - 1,}}\,\,{{\rm{m}}_{\rm{s}}}{\rm{ = - 1/2}}\)
The maximum number of electron (s) in an atom that can have the quantum numbers as given in (1) and (2) are respectively.

307462 How many electrons could be held in the second shell of an atom if the spin quantum number \({\mathrm{\left(\mathrm{m}_{\mathrm{s}}\right)}}\) could have three values instead of just two?

307463 The total number of orbitals associated with theM -shell is

307464 Maximum number of electrons in a sub-shell with \({\rm{l = 3}}\) and \({\rm{n = 4}}\) is

307465 Given \({\rm{(1)}}{\mkern 1mu} {\rm{n = 5,}}\,\,{{\rm{m}}_{\rm{l}}}{\rm{ = + 1}}\)
\({\rm{(2)}}{\mkern 1mu} {\mkern 1mu} {\rm{n = 2,l = 1,}}\,\,{{\rm{m}}_{\rm{l}}}{\rm{ = - 1,}}\,\,{{\rm{m}}_{\rm{s}}}{\rm{ = - 1/2}}\)
The maximum number of electron (s) in an atom that can have the quantum numbers as given in (1) and (2) are respectively.