which is present everywhere. The mass of each slider is m
In Fig. there are two sliders and they can slide on two frictionless parallel wires in uniform magnetic field B, which is present everywhere. The mass of each slider is m, resistance R and initially these are at reat. Now, if one slider is given a velocity v0 = 16 m/s, what will be the velocity (in m/s)) of other slider after long time ? (neglect the emf self-induction)
21
Oct
In Fig. there are two sliders and they can slide on two frictionless parallel wires in uniform magnetic field B, which is present everywhere. The mass of each slider is m, resistance R and initially these are at reat. Now, if one slider is given a velocity v0 = 16 m/s, what will be the [...]
Tags:
if one slider is given a velocity v0 = 16 m/s ,
In Fig. there are two sliders and they can slide on two frictionless parallel wires in uniform magnetic field B ,
resistance R and initially these are at reat. Now ,
what will be the velocity (in m/s)) of other slider after long time ? (neglect the emf self-induction) ,
which is present everywhere. The mass of each slider is m ,