A straight conductor of weight 1 N and length 0.5 m, is located in a plane making an angle `30^@` with the horizontal so that it is perpendicular to a uniform mangetic field of induction `B= 0.109 T.` Given that the conductor carries a current of 10 A away from the reader, and coefficient of static friction is 0.1, find the force needed to be applied parallel to the plane to sustain the conductor at rest.

The figure shows a conductor of weight 1.0 N& length L=0.5 m placed on a rough inclined plane making an angle 30^(@) with the horizontal so that conductor is perpendicular to a uniform horizontal magnetic field of induction B=0.10 T .The coefficient of static friction betwen the conductor inside the plane of is 0.1 . A current of l=10 A flows through the conductor inside the plane of this paper as shown.What is the force needed to be applied parallel to the inclined plane to keep the conductor at rest?

The figure shows a conductor of weight 1.0 N& length L=0.5 m placed on a rough inclined plane making an angle 30^(@) with the horizontal so that conductor is perpendicular to a uniform horizontal magnetic field of induction B=0.10 T .The coefficient of static friction betwen the conductor inside the plane of is 0.1 A A current of l=10 A flows through the conductor inside the plane of this paper as shown.What is the force needed to be applied parallel to the inclined plane to keep the conductor at rest?

A conductor of length 50 cm carrying a current of 5A is placed perpendicular to a magnetic field of induction 2xx10^(-3) T. Find the force on the conductor.

A straight conductor carries a current of 1.5 A and is 2 m long. is placed in a uniform magnetic field of 0.15 T Find the force on it, when it is perpendicular.

A straight conductor carries a current of 1.5 A and is 2 m long, is placed in a uniform magnetic field of 0.15 T. Find the force on it, when it is inclined at an angle at 30^@

A conductor fo length 0.5 m is at 60^@ to the uniform magnetic field of induction vecB = 1 webr//m^2 . Find the force experienced by the conductor if a current of 5 Ampere flows through it.

A straight conductor of length 4 m moves at a speed of 10 m/s when the conductor makes an angle of 30^(@) with the direction of magnetic induction 0.1 T. then the induced emf is

A conductor of length 5 m and carrying current of 2 A is kept inclined at 30^(@) to a uniform magnetic field of induction 0.4 tesla. What is the force acting on the conductor ?

A straight conductor of length 4 m moves at a speed of 10m//s When the conductor makes an angle 30 ^@ with them direction of meganetic filed of induction of 0.1 Wb-m^(2) , then induced emf is