Two long parallel wires carrying current 2.5 A and I in the same direction (directed into plane of the paper 0 are held ar P and Q respectively,such that they are perpendicular to the plane of paper .The points O and Q are located at distance of 5 m and 2 m respectively,from a collinear point R
(i0 An electron moving with a velocity of `4xx10^(5)`m/s along positive x-direction experiences a force of magnitude `3.2xx10^(-20)` n at the point R.Find the value of i
(ii) Find all positions at which a third long parallel wire carrying a current of magnitude 2.5 A may be placed, so that magnetic field at R is zero

Two long parallell wires carrying currents 2.5 A and I (ampere) in the same directon (directed into theplane of the paper) are held at P and Q , respectively such that they are perpendicular to the plane of paper. The points P and Q are located at distance of 5 m and 2m respectively from a collinear point R (see figure). a. An electron moving with a velocity of 4xx10^5 m/s along the positive x-directionn experieces a force of magnitude 3.2xx10^-20 N at the point R . Find the volume of I . b. Find all the positions at which a third long paralle wire carryig a current of magnitude 2.5 AS may be placed, so that the magnetic induction at R is zero.

Two long parallel wires carrying current 2.5 amperes and I ampere in the same direction ( directed into the plane of the paper) are held at P and Q respectively such that they are perpendicular to the plane of paper. The points P and Q are located at a distance of 5 metres and 2 metres respectively from a collinear point R ( see figure) (i) An electron moving with a velocity of 4xx10^(5) m//s along the positive x- direction experiences a force of magnitude 3.2xx10^(-20) N at the point R . Find the value of I . (ii) Find all the positions at which a third long parallel wire carrying a current of magnitude 2.5 amperes may be placed so that the magnetic induction at R is zero.

In the adjoining diagram, P and Q are parallel wires carrying currents of 2.5 A and I respectively directed at right angles to the plane of paper inwards. An electron moving with velocity 4xx10^(5)m//s in positive x - direction experiences a force of 3.2xx10^(-20)N at point R. The value of i will be

Two long parallel wires carry equal current I flowing in the same direction are at a distance 2d apart. The magnetic field B at a point lying on the perpendicular line joining the wires and at a distance x from the midpoint is

Two long parallel wires are 30 cm apart carrying currents 10 A and 15 A respectively in the same direction. The force acting over a length of 5 m of the wires is

Two long parallel conductors cany currents i_(1) = 3A and i_(2) = 3A both are directed into the plane of paper. The magnitude of resultant magnetic field at point 'P, is

Two long and parallel straight wires A and B carrying currents of 8*0A and 5*0A in the same direction are separated by a distance of 4*0cm . Estimate the force on a 10cm section of wire A.

Two long parallel wires placed 0.08 m apart, carry currents 3 A and 5 A in the same direction. what is the distance from the conductor carrying the larger current to the point where the resultant magnetic field is zero?

Two parallel wires 2 m apart carry currents of 2 A and 5 A respectively in same direction, the force per unit length acting between these two wires is

Two long parallel copper wires carry current of 5A each in opposite directions. If the wires are separated by a distance distance of 0.5m, then the force per unit length between the two wires is