In a hydrogen atom, the `vece` moves in an orbit of radius `0.5xx10^(-10)` m making `10^(16)` r.p.s Calculate the magnetic moment associated with the orbital motion of `vece`.

An electron in a hydrogen atom is moving with a speed of 2.3 xx 10^(6) ms^(-1) in an orbit of radius 0.53 Å . Calculate the magnetic moment of the revoling clectron.

In the bhohr model of H-atoms,the electrons moves in a circular orbit of radius 0.53 Å with speed of 2.65 xx 10^(6)m//s . Calculate the current orbit.

The radius of the first orbit of hydrogen atom is 0.5 Å. The electron moves is an orbit with a uniform speed of 2.2 xx10^(6) ms^(-1) . What is the magnetic field produced at the centre of the uncleus due to the mation of this electron ? Use mu_(0) = 4pi xx 10^(-7) Hm^(-1) and electric charge =1.6 xx 10^(-19) C

A mars satellite moving in an orbit of radius 9.4xx10^3 km take 27540 s to complete one revolution. Calculate the mass of mars.

If the velocity of the electron in Bohr's first orbit is 2.19 xx 10^(6) ms^(-1) . Calculate the de-Broglie wavelength with it.

The electron in a H_(2) atom circles around the proton with a speed of 2.18 xx 10^(6) ms^(-1) in an orbit of radius 5.3 xx 10^(-11)m . Calculate (i) the equivalent current (ii) magnetic field produced at the proton.

An electron has a mass of 9.1×10^-31 kg . It revolves round the nucleus in a circular orbit of radius 0.529×10^-10 metre at a speed of 2.2 ×10^6 m/s. The magnitude of its linear momentum in this motion is

An electron has a mass of 9.1×10^-31 kg . It revolves round the nucleus in a circular orbit of radius 0.867×10^-12 metre at a speed of 4.8 ×10^8 m/s. The magnitude of its linear momentum in this motion is