A square wire frame with side `a` and a straight conductor carrying constant current `I` are located in the same plane (Fig). The inductance and the resitance of the frame are equal to `L` and `R` respectively. The frame was turned throgh `180^(@)` about the axis `OO'`separated fromt the current carrying conductor by a distance `b`. FInd the electric charge having flown through the frame.

A square wire frame ( initially current is zero) with side a and a straight conductor carrying a constant current I are located in the same plane (figure). The inductance and the resistance of the frame are equal to L and R respectively. The frame was turned through 180^(@) about the axis OO' separated from the current - carrying conductor by a distance b=2a. The total electric charge having flown through the frame if i=0 at t=0 in the loop is equal to (mu_(0)aI)/(2piR)lnx . Find the value of x.

A square wire frame ( initially current is zero) with side a and a straight conductor carrying a constant current I are located in the same plane (figure). The inductance and the resistance of the frame are equal to L and R respectively. The frame was turned through 180^(@) about the axis OO' separated from the current - carrying conductor by a distance b=2a. The total electric charge having flown through the frame if i=0 at t=0 in the loop is equal to (mu_(0)aI)/(2piR)lnx . Find the value of x.

A Square frame with side a and a straigh conductor carrying a constant current I and located in the same plane. The inductance and the resistance of the frame are equal to L and R respectivaly. The frame was truned through I80^(@) about the axis OO' separated from the current carrying conductor by a distance b . Find the electric charge having flown through the frame.

A square frame with side 'a' and a straight conductor carrying a constant current I are located in the same plane. The resistance of the frame is equal to R . The frame was turned through 180^(@) about the axis OO' separated from the current-carrying conductor by a distance b=2a . If the electric charge that flowed through the frame be expressed as a function of a,I,R it takes the form q= constant xxa^(m)xxI^(n)xxR^(p) . Find m+n+p .

A square frame with side a and a long straight wire carrying a current i are located in the same plane as m shown in figure. The fram translates to the right with a constant velocity v . Find the emf induced in the frame as a function of distance x .

A square frame with side a and a long straight wire carrying a current i are located in the same plane as m shown in figure. The fram translates to the right with a constant velocity v . Find the emf induced in the frame as a function of distance x .

A conducting square frame of side 'a' and a long straight wire carrying current I are located in the same plane as shown in the figure. The frame moves to the right with a constant velocity 'V' . The emf induced in the frame will be proportional to

A conducting square frame of side 'a' and a long straight wire carrying current I are located in the same plane as shown in the figure. The frame moves to the right with a constant velocity 'V'. The emf induced in the frame will be proportional to :

A conducting square frame of side 'a' and a long straight wire carrying current I are located in the same plane as shown in the figure. The frame moves to the right with a constant velocity 'V'. The emf induced in the frame will be proportional to :