An electron is moving with an initial velocity `vecv=v_0hati` and is in a magnetic field `vecB=B_0hatj`. Then its de-Broglie wavelength

An electron mass m with an initial velocity vecv=v_0hati (v_0>0) is in an electric field vecE=-E_0hati(E_0=constant>0) . Its de-Broglie wavelength at time t is given by

A Charge of 3 C is moving with velocity vecv = (4hati + 3hatj) ms^-1 in a magnetic field vecB = (4hati + 3hatj) Wb m^-2 . Find the force acting on the test charge

A particle carrying a charge 5 mu C is moving with a velocity vecv = ( 4 hati + 3 hatk) ms ^(-1) in a magnetic field vec B =( 3 hatk + 4 hati) W bm^(-2). Calculate the force acting on the particle.

A particles A with mass m_A is moving with velocity v and hits a particle B (mass m_B) at rest (one dimensional motion) find change in the de-Broglie wavelength of the particle A. Treat the collision as elastic.

Twelve wires of equal lengths are connected in the form of a skelton cube which is moving with a velocity vecv in direction of magnetic field vecB . Find the e.m.f. in each arm of the cube.