Four long, parallel conductors carry equal currents of `5.0`. The direction of the currents is into the pge at points. `A` and `B` and out of the page at `C` and `D`. Calculate the magnitude and directionof the mgnetic field at point `P`, located at the centre of the square.

Four long, parallel conductors carry equal currents of 5.0A. The direction of the currents is into the page at point A and B and out of the page at C and D. Calculate the magnetic and direction of the magnetic field at point P, located at the centre of the square.

Find the magnitude and direction of magnetic field at point P due to the current carrying wire as shown in

Find the magnitude and direction of magnetic field at point P due to the current carrying wire as shown in

Four long wires each carrying current I as shown in Fig. are placed at points A, B, C and D. Find the magnitude and direction of magnetic field at the centre of the square.

Four long wires each carrying current I as shown in Fig. are placed at points A, B, C and D. Find the magnitude and direction of magnetic field at the centre of the square.

Four long wires each carrying current I as shown in the figure are placed at the points A, B, C and D. Find the magnitude and direction of magnetic field at the centre of the square.

There are two parallel current carrying wires X and Y as shown in figure. Find the magnitude and direction of the magnetic field at points, P, Q and R.

A system of long four parallel conductors whose sections with the plane of the drawing lie at the verties of a square there flow four equal currents. The directions of these currents are as follows : those marked ox point away from the reader, while those marked with a dot point towards the reader. How is the vector of magnetic induction directed at the centre of the square?

A system of long four parallel conductors whose sections with the plane of the drawing lie at the vertices of a square there flow four equal currents The directions of these currents are as follows those marked ox point away from the reader, while those marked with a dot point towards the reader How is the vector of magnetic induction directed at the centre of the square? .