For which of the following depndences of drift velocity, `v_(d)` on electric field E, Ohm's law obeyed?

Which of the following represents the ohm's law ?

Express which of the following set ups can be used to verify ohm's law?

Temperature dependence of drift velocity depends on the following factors.

In current electricity, Ohm.s law is obeyed by all :

Which of the following is true for the figure showing electric lines of force ? (E is electrical field, and V is potential). .

In Milikan's oil drop experiment, a charged drop falls with terminal velocity V. If an electric field E is applied in vertically upward direction then it starts moving in upward direction with terminal velocity 2V. If magnitude of electric field is decreased to (E)/(2) , then terminal velocity will become

An electron is projected with velocity v_(0) in a unifrom electric field E perpendicular to the field Again it is projectced with velocity v_(0) perpendicular to a unifrom magnetic field B . if r_(1) is initial radius of curvature just after entering in the electric field and r_(2) is initial radius of curvature just after entering in magnetic field then the ratio r_(1)//r_(2) is equal to .

Drift velocity v_(d) varies with the intensity of electric field as per their relation

if E denotes electric field in a uniform conductor and v_(d) the corresponding drift velocity of free electrons in the conductor, then which of the following graph is correct

Figure shows a conical conducting wire connected to a source of emf. Let E, v_(d) , I represent the electric field, drift velocity and current at a cross-section of the wire. As one moves from end A to B of the wire