v0

In the given circuit V_(0_1) " and " V_(0_2) are -

The position x of a particle at time t is given by x=(V_(0))/(a)(1-e^(-at)) , where V_(0) is constant and a gt 0 . The dimensions of V_(0) and a are

Slope of V_(0)-v curve is- (where V_(0)= Stopping potential and v=frequency)

Three sources of emf,V_(0) sinwt,V_(0) coswt and V_(0) are connected in series as shown.RMS value of current in the circuit is

Slope of V_(0) vs v curve is (where V_(0) = Stopping potential, v=subjected freqency)

One mole of an ideal gas undergoes a process p=(p_(0))/(1+((V_(0))/(V))^(2)) . Here, p_(0) and V_(0) are constants. Change in temperature of the gas when volume is changed from V=V_(0) to V=2V_(0) is

For one mole of ideal gas if P=(P_(0))/(1+((V)/(V_(0)))) where P_(0) and V_(0) are constant, then temperature of gas when V=V_(0) is:

One mole of an ideal gas undergoes a process p=(p_(0))/(1+((V)/(V_(0)))^(2)) where p_(0) and V_(0) are constants. Find temperature of the gaas when V=V_(0) .