A conducting rod `PQ` of length `l = 2m` is moving at a speed of `2m s^(-1)` making an angle of `30^(@)` with its length. A uniform magnetic field `B = 2T` exists in a direction perpendicular to the plane of motin. Then

A conducitng rod AB of length l = 1 m moving at a velcity v = 4 m//s making an angle 30^(@) with its length. A uniform magnetic field B = 2T exists in a direction perpendicular to the plane of motion. Then :

A conducting rod AB of length l=1m is moving at a velocity v_A=4m//s making an angle 30^@ with its length. A uniform magnetic field B=2T exists in a direction perpendicular to the plane of motion. Then

A rod of length l is translating at a velocity v making an angle theta with its length. A uniform magnetic field B exists in a direction perpendicualr to the plane of motion. Calculate the emf induced In the rod, Draw a figure representig the induced emf by on equivalent battery.

A rod of length l is translating at a velocity v making an angle theta with its length. A uniform magnetic field B exists in a direction perpendicualr to the plane of motion. Calculate the emf induced In the rod, Draw a figure representig the induced emf by on equivalent battery.

A 20 cm long conducting rod is set into pure translation with a uniform velocity of 10cm s ^(-1) perpendicular to its length. A uniform magnetic field of magnitude 0.10 T exists in a direction perpendicular to the plane of motion. Find emf developed in the rod.

A 20 cm long conducting rod is set into pure translation with a uniform velocity of 10cm s ^(-1) perpendicular to its length. A uniform magnetic field of magnitude 0.10 T exists in a direction perpendicular to the plane of motion. Find emf developed in the rod.

A thin conducting rod of length l=5m is moved such that its end B moves along the X-axis while end A moves along the Y-axis A uniform magnetic field B=6hat(k) T exists

A conducting rod AB of length l is rotated about point O with an angular velocity velocity omega in a uniform magnetic field (B_0) directed perpendicular into the plane of rotation as shown in the figure. The value of V_B - V_A is

A conducting rod PQ of length L = 1.0 m is moving with a uniform speed v = 2.0 m s^(-1) in a uniform magnetic field B = 4.0 T directed into the plane of the paper. A capacitor of capacity C = 10muF is connected as shown in , then