Two coaxial circular loops of raadii `r_(1)` and `r_(2)` are separated by a distance `x` and carry currents `i_(1)` and `i_(2)` respectively. Calculate the mutual inductance. What is the force between the loops ?

Two coaxial circular loops of raadii `r_(1)` and `r_(2)` are separated

1.	Two coaxial circular loops of raadii `r_(1)` and `r_(2)` are separated by a distance `x` and carry currents `i_(1)` and `i_(2)` respectively. Calculate the mutual inductance. What is the force between the loops ?
Answer» Magnetic field due to loop `(1)` at `(2)` `B_(1)=(mu_(0)i_(1)r_(1)^(2))/(2(r_(1)^(2)+x^(2))^(3//2))` , along the axis Flux passing through `(2)` `phi=B_(1)A_(2)=(mu_(0)i_(1)r_(1)^(2))/(2(r_(1)^(2)+x^(2))^(3//2))pir_(2)^(2)` Mutual inductance `M=(phi_(2))/(i_(1))=(mu_(0)pir_(1)^(2)r_(2)^(2))/(2(r_(1)^(2)+x^(2))^(3//2))` Magnetic moment of loop `(2)` `M_(2)=i_(2).pir_(2)^(2)` , along the axis `P.E.` of loop `(2)` ltbr. `U=-vec(M)_(2).vec(M)_(1)=-M_(2)B_(1)=-(i_(2)pir_(2)^(2)mu_(0)i_(1)r_(1)^(2))/(2(r^(2)+x^(2))^(3//2))` `F=-(dU)/(dx)=(mu_(0)i_(1)i_(2)pir_(1)^(2)r_(2)^(2))/(2)(-(3)/(2))(r^(2)+x^(2))^(-5//2)(2x)` `=-(3mu_(0)i_(1)i_(2)pir_(1)^(2)r_(2)^(2)x)/(2(r^(2)+x^(2))^(5//2))` `-ve` sign shows that foorce is attractive.

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Two coaxial circular loops of raadii `r_(1)` and `r_(2)` are separated by a distance `x` and carry currents `i_(1)` and `i_(2)` respectively. Calculate the mutual inductance. What is the force between the loops ?

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