Home
Class 12
PHYSICS
An infinetely long conductor PQR is bent...

An infinetely long conductor PQR is bent tor form a right angle as shown in Fig. A current I flows through PQR. The magnetic field due to this current carrying conductor at the point M is `B_1`. Now, another infinitely long straight conductor QS, is connected at Q so that the current is `1/2I` in QR as well as in QS, is the current in PQ remaininig unchanged. The magnetic field at M is now `B_2`. The ratio `B_1//B_2` is given by

Promotional Banner

Similar Questions

Explore conceptually related problems

An infifnitely long conductor PQR is bent to form a right angle as shown in figure. A current I flows through PQR . The magnetic field due to this current at the point M is H_1 Now, another infinitely long straight conductor QS is connected at Q , so that current is I/2 in QR as well as in QS , the current in PQ remaining unchanged. The magnetic field at M is now H_2 . The ratio H_1/H_2 is given by

An infifnitely long conductor PQR is bent to form a right angle as shown in figure. A current I flows through PQR . The magnetic field due to this current at the point M is H_1 Now, another infinitely long straight conductor QS is connected at Q , so that current is I/2 in QR as well as in QS , the current in PQ remaining unchanged. The magnetic field at M is now H_2 . The ratio H_1/H_2 is given by

An infinitely long conductor PQR is bent to form a right angle as shown. A current I flows through PQR. The magnetic field due to this current at the point M is B_(1) . Now, another infinitely long straight conductor QS is connected at Q so that the current is I//2 in QR as well as in QS, the current in PQ remaining unchanged. The magnetic field at M is now B_(2) = 4 mT . Find the value of B_(1) ("in" mT) .

An infinitely long conductor PQR is bent to form a light angle as shown in Figure . A current I flows through PQR . The magnetic field due to this current at the point M is H_(1) . Now , another infinitely long straight conductor QS is connected at Q so that current is (I)/(2) in QR as well as in QS , the current in PQ remaining unchanged . The magnetic field at M is now H_(2) . The ratio (H_(1))/(H_(2) is given by

An infinetely long conductor PQR is bent to from a right angle as shown. A current I flows through PQR . The magnetic field due to this current at the point M is H_(1) .Now, another infinitely long straight conductor QS is connected at Q so that the current is I//2 in QR as well as in QS , the current in PQ remaining unchanged. The magnetic field at M is now H_(z) , the ratio H_(1)//H_(2) is given by