In a hydrogen atom, which orbital is higher in energy than a 3s-orbital?

An atomic orbital

Which of the following are correct ? (1) Electron density in XY plane for d_(x^(2)-y^(2)) orbital is zero. (2) The energy of 3p-orbital is higher than the energy of 2p-orbital. (3) 3p_(z) orbital has one angular node. (4) 4f-orbital has no radial node.

The energy of second Bohr'orbit of hydrogen atom is -328 kJ mol^(-1) , hence energy of fourth Bohr orbit would be

If the electron of a hydrogen atom is present in the first orbit. The total energy of the electrons is

If the electron in an hydrogen atom jumps from an orbit with level n_(f) = 3 to an orbit with level n_(f) = 2 the emitted radiation has a wavelength given by

Which of the following arrangements of p orbitals gives the lowest energy orbital of 1,3-butadiene?

The energy of second Bohr orbit of hydrogen atom is -328 kJ. mol^(-1) , hence energy of fourth Bohr orbit would be

The energy of second Bohr orbit of hydrogen atom is -328 kJ. mol^(-1) , hence energy of fourth Bohr orbit would be

The energy of second Bohr orbit of hydrogen atom is -328 kJ. mol^(-1) , hence energy of fourth Bohr orbit would be