A straight wire carries a current of 10A. An electron moving at `10^(3)` m/s is at distance 2.0 cm from the wire. Find the force acting on the electron if its velocity is directed toward the wire?

A long straight wire carries a current of 50 A. An electron moving at 10^(7) m/s is 5 cm away from the wire. The force acting on electron if its velocity is directed towards the wire will be

A long straight wire carries a current of 50 A. An electron moving at 10^(7) m/s is 5 cm away from the wire. The force acting on electron if its velocity is directed towards the wire will be

A long straight wire carries a current of 50A. An electron moving at 107 m/s is 5 cm away from the wire. The force acting on electron if its velocity is directed towards the wire with be

A long wire carries a current of 5A. An electron at a distance of 50 cm from this wire is moving with a speed of 10^(7) m/s What is the force acting on the electron, when it moves directly towards the wire ?

A very long straight wire carries a current of 5 A. An electron moves with a velocity of 10^(6)ms^(-1) remaining parallel to the wire at a distance of 10 cm from wire in a direction opposite to that of electric current. Find the force on this electron. (Here the mass of electron is taken as constant) (e=-1.6xx10^(-19)C,mu_(0)=4pixx10^(-7)SI)

A long straight wire carries a current of 10 A. An electron travels perpendicular to the plane of this wire at a distance 0.1 m with a velocity of 5.0 xx10^(6)m//s. What is the force acting on the electron due to the current in wire ?