Kinetic energy of electron in `n^("th")` orbit in H-atom

" Kinetic energy of electron in "n''" orbit in H-atom "

In Bohr's orbit , kinetic energy of an electron in the n^(th) orbit of an atom in terms of angular momentum is propotional to

In Bohr's orbit, kinetic energy of an electron in the n^(th) orbit of an atom in terms of angular momentum is

Which of the following option(s) is/are independent of both n and Z for H- like species? U_(n) = Potential energy of electron in n^(th) orbit KE_(n) = Kinetic energy of electron in n^(th) orbit l_(n) = Angular momentam of electoron in n^(th) orbit v_(n) = Velcity of electron in n^(th) orbit f_(n) = Frequency of electron in n^(th) orbit T_(n) = Time period of revolution of electron in n^(th) orbit

If the kinetic energy of electron in n^( th ) shell of H - atom is K then its potential energy in n^(th ) shell will be

The kinetic energy of the electron in the nth orbit of an atom is given by the relation

State Bohr's postulates. Using these postulates, derive an expression for total energy of an electron in the n^("th") orbit of an atom. What does negative of this energy signify ?