Statement 1: Any charge will move from electric potential `v_(1)` and `V_(2)` by its own only when `v_(1) lt V_(2)`
Statement2: Electron moves form `V_(1)=2V` towards `V_(2)=4V`

The ratio of de broglie wavelength of electron accelerated through potentials V_(1) and V_(2) is 1:2 the ratio of potentials V_(1) : V_(2) is

An electron enters in high potential region V_(2) from lower potential region V_(1) then its velocity

From the above figure the values of stopping potentials for M_(1) and M_(2) for a frequency v_(3)( gt v_(02)) of the incident radiatioins are V_(1) and V_(2) respectively. Then the slope of the line is equal to

In fig., blocks A and B move with velocities v_(1) and v_(2) along horizontal direction. Find the ratio of v_(1)//v_(2)

Cut off potentials for a metal in photoelectric effect for light of wavelength lambda_(1), lambda_(2) and lambda_(3) is found to be V_(1), V_(2) and V_(3) volts if V_(1), V_(2) and V_(3) are in Arithmetic Progression and lambda_(1), lambda_(2) and lambda_(3) will be :

In the following diagram if V_(2) gt V_(1) then

Two batteries V_(1) and V_(2) are connected to three resistors as shown below. If V_(1) = 2V and V_(2) = 0 V, the current I = 3 mA. If V_(1) = 0 V and V_(2) = 4V, the current I = 4mA. Now, if V_(1) = 10 V and V_(2) = 10 V, the current I will be-

The capacities of two parallel plate capacitors are C_(1) and C_(2) and their respective potential are V_(1) and V_(2) . If they are connected by a thin wire, then (A) Commen potential will be (C_(1)V_(1)+C_(2)V_(2))/(C_(1)+C_(2)) , if plates of same polarities are connected together (B) Loss of energy will be (1)/(2)(C_(1)C_(2))/(C_(1)+C_(2))(V_(1)-V_(2))^(2) , if plates of same polarities are connected together (C) Common potential will be (|C_(1)V_(1)-C_(2)V_(2)|)/(C_(1)+C_(2)) , if plates of opposite polarities are connected together

Cut off potential for a metal in photoclectric effect for light of wavelength lambda_(1), lambda_(2) and lambda_(3) is found to be V_(1),V_(2) and V_(3) volts , If V_(1),V_(2) and V_(3 are in Arithmetic progression then lambda_(1),lambda_(2) and lambda_(3) will be in