An ion which carries `+3` charge posseses magneticof 4.9 B.M.andits last electron possesses orbital angular momentum of `sqrt(6h)`. Write the E.C. of that ion and identify that element if highest n in the E.C. of that ion is 3.

How many degenerate orbitals are presentin a subshell if electron associated with that subshell possesses orbital angular momentum =2 sqrt (3) h ?

Mu on (mu^(-)) is a negatively charged (|q|=|e|) particle with a mas m_(mu)=200 m_(e ) where m_(e ) is the mass of the electron and e is the electronic charge . If mu^(-) is bound to a proton to from a hgydrogen like atom identify the correct statements (A) Radius of the muonic orbit is 200 times smaller than that of the electron (B) The speed of the mu^(-) in the n^(th) orbit is 1/200 times that of the electron in the n^(th) orbit (c )The ionizaion energy of muonic atom is 200 times more than that of an hydrogen atom (D) The momentum of the muon in the m^(th) orbit is 200 times more than that of the electron

A single electron ion has nuclear chrage +Ze where Z is atomic number and e is electronic charge. It requires 16.52 eV to excite the electron from the second Bohr orbit to third Bohr orbit. Find (a) The atomic number of element? (b) The energy required for transition of electron from first to third orbit? (c ) Wavelength of photon required to remove electron from first Bohr orbit to infinity? (d) The kinetic energy of electron on first Bohr orbit?

Magnetic momentum of an ion M^(+3) is sqrt( 35) BM. Then, number of electron in d orbital of M element will be "___________"

Ionization energy of a hydrogen-like ion A is greater than that of another hydrogen like ion B . Let r, u, E and L represent the radius of the orbit , speed of the electron , total energy of the electron and angular momentum of the electron respectively (for the same n ). In ground state :

Hydrogen atom: The electronic ground state of hydrogen atom contains one electron in the first orbit. If sufficient energy is provided, this electron can be promoted to higher energy levels. The electronic energy of a hydrogen-like species (any atom//ions with nuclear charge Z and one electron) can be given as E_(n)=-(R_(H)Z^(2))/(n^(2)) where R_(H)= "Rydberg constant," n= "principal quantum number" The ratio of energy of an electron in the ground state Be^(3-) ion to that of ground state H atom is: The kinetic and potential energies of an electron in the H atoms are given as K.E. =e^(2)/(4 pi epsilon_(0)2r) and P.E.=-1/(4pi epsilon_(0)) e^(2)/r

Point out the anugular momentum of an electron in, (a) 4s orbital (b) 3p orbital (c ) 4^(th) orbit )according to Bohr model)

A metal ion M^(n+) having d^4 valence electronic configuration combines with three didentate ligands to form a complex compound. Assuming Delta_o gt P write the electronic configuration of the valence electrons of the metal M^(n+) ions in terms of t_(2g) and e_g .

Write down electronic configuration of Fe^(3+) ion and anwer the following: (i) What is the number of electrons having n+l=3 in it? (ii) How many electrons in it have n=3 and m=0 ?

Ionzation energy of a hydrogen like A is greater than that of another hydrogen like ion Let r, u, E and L repreasent the radius of the orbit, speed of the electron energy of the atom and orbital angular momentum of the electron respectively, in ground state