Using the concept of force between two infinitely long parallel current carrying conductors, define one ampere of current.

Derive an expression for the force between two long parallel current carrying conductors. Use this expression to define SI unit of current.

Derive the expression for force per unit length between two long straight parallel current carrying conductors. Hence define one ampere.

(a) Derive an expression for the force between two long parallel current carrying conductors . (b) Use this expression to define S.I. unit of current . (c) A long straight wire AB carries a current I.A proton P travels with a speed v , parallel to the wire , at a distance d from it in a direction opposite to the current as shown in the figure . What is the force experienced by the proton and what is its direction ?

The force between two parallel current carrying wires is independent of

The strength of magnetic field around an infinitely long current carrying conductor is

Answer the following: (a)Define SI unit of current in terms of the force between two parallel current carrying conductors. (b) Two long straight parallel conductors carrying steady currents I_(a)andI_(b) along the same direction are separated by a distance d. How does one explain the force of attraction between them? If a third conductor carrying a current I_(c) in the opposite direction is placed just in the middle of these conductors , find the resultant force acting on the third conductor.

(i) Define ampere in terms of force between two current carrying conductors. (ii) What is an ideal transformer ?

The direction of force on a current carrying conductor in a magnetic field is given by

Figure below shows two infinitely long and thin current carrying conductors X and Y kept in vacuum, parallel to each other, at a distance .a.. (i) How much force per unit length acts on the conductor y due to the current flowing through X ? Write your answer in terms of ((mu0)/(4pi)),I_(1),I_(2) and a. (Derivation of formula is not required.), (ii) Define ampere, in terms of force between two current carrying conductors.

Mention the angle between a current carrying conductor and magnetic field for which the force experienced by this current conductor placed field is largest ?