Magnitude of K.E. in an orbit is equal to

Two vectors of equal magnitude are acting through a point. The magnitude of resultant is equal to the magnitude of either vectoe. Find the angle between the vectors.

There are two vectors of equal magnitudes. When these vectors are added, then magnitude of the resultant is also equal to the magnitude of each of the two given vectors. Angle between the vectors is

If the angular momentum of an electron in an orbit is J then the K.E. of the electron in that orbit is

Calculate magnitude of orbital angular momental of an e^(-) that occupies 1s, 2s,2p,3d,3p.

Two vectors vecA" and "vecB have equal magnitudes. If magnitude of vecA+vecB is equal to n times the magnitude of vecA-vecB , then the angle between vecA" and "vecB is :-

The magnitude of the P.E. of the electron in the first orbit of the bohr's atom is E. What is its K.E. ? S

In the Bohr model of the atom (i) the radius of the n^(th) orbit is proportional to n^(2) (ii) the total energy of the electron in n^(th) orbit is inversely proportional to n (iii) the angular momentum of the electron in an orbit is an integral multiple of h//2 pi (iv) the magnitude of the P.E. of the electron in an orbit is gt its K.E.

The rate of change of magnetic flux linked with the coil is equal to the magnitude of induced e.m.f.' this is the statement of

" The largest possible magnitude of the orbital angular momentum for "n=4" is? "

If the P.E. of an electron is -68 eV in hydrogen atom then find out K.E.,E of orbit where electron exist & radius of orbit.