v0_newFlow

Assertion: A charged particle enters in a magnetic field B=B_0hati with velocity v=v_0hati+v_0hatj, then minimum speed of charged particle may be v_0 . Reason: A variable acceleration particle may be v_0 .

Reduction potentials of A,B,C and D are 0.8 V 0.79 V, 0.34 V and -2.37 V respectively which element displaces all the other three elements

The initial pressure and volume of a given mass of a gas (C_p / C_v = gamma) are (p_0) and (V_0). The gas can exchange heat with surrounding. (a) It is slowly compressed to a volume (V_0 / 2 ) and then suddenly compressed to (V_0 /4) . Find the final pressure. (b) If the gas is suddenly cpmpressed from the volume (V_0 to V_0 / 2 ) and then slowly compressed to (V_0 / 4 ) , What will be the final pressure?.

The velocity v and displacement x of a particle executing simple harmonic motion are related as v (dv)/(dx)= -omega^2 x . At x=0, v=v_0. Find the velocity v when the displacement becomes x.

The velocities of ten molecules of any gas are given v,0,2v,4v,3v,2v,v,3v,5v,v . Calculate their root mean square velocity.

The velocity of a particle moving along the xaxis is given by v=v_(0)+lambdax , where v_(0) and lambda are constant. Find the velocity in terms of t.