Torque Experienced By Current Loop In Uniform Magnetic Field

Torque Experienced By Current Loop In Uniform Magnetic Field. B → = b j ^. Let us consider a rectangular current loop pqrs of sides a and b suspended vertically in a uniform magnetic field.

Torque due to a Dipole in a Field Physics 12th from www.youtube.com

The magnetic field exerts force on currents and if we place a current loop in a magnetic field, a torque due to the magnetic force on the loop tends to rotate the loop. Torque (τ) is the twisting force that tends to cause rotation. When the plane of the loop is not along the magnetic field but makes an angle θ with it.

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Torque experienced by a current loop in a uniform magnetic field. We know that a force acts.

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First, nd the magnetic dipole moment of the loop. Torque on a current carrying loop in a uniform magnetic field.

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My textbook states that the torque τ → experienced by a current carrying loop due to a magnetic field b →, is given by the equation τ → = m → × b → ,where m → denotes the magnetic moment of the current loop= i a →. Here let us consider a rectangular loop pqrs of length l.

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Let's say the magnetic field is in the plane of the loop and is parallel to two sides. The direction of a~is perpendicular to the loop, in the direction given by the \loop rhr:

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1 shows a rectangular loop of wire that carries a current i and has sides of lengths a and b. This is ~= ia~, where iis the current and the magnitude of a~is the area aenclosed by the loop.

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It carries a current of i along pqrs. The loop is in a uniform magnetic field:

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(ii)torque action on a current carrying coil placed in uniform magnetic field is τ → = m → × b →. Let the normal of rectangular loop make an angle $\theta^0$ with direction of $\vec{b(x)}$.

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Let the current through the loop be $i$. In such field loop experiences both torque and translatory force.

In Such Field Loop Experiences Both Torque And Translatory Force.

In that case, the magnetic dipole has certain limitations and can look towards only either north or the south poles. Let the normal of rectangular loop make an angle $\theta^0$ with direction of $\vec{b(x)}$. B → = b j ^.

Curl Your Ngers Around With The Current, And Your Thumb Points In The Direction Of ~.

This is ~= ia~, where iis the current and the magnitude of a~is the area aenclosed by the loop. When rectangular loop is placed such that the uniform magnetic field b is in the plane of the loop ; A current carrying loop in a uniform magnetic field will experience torque only given by τ = m × b where m is magnetic moment of loop b is magnetic field.

Magnetic Field Must Be Uniform For Net Force To Be Zero.

Torque (τ) is the twisting force that tends to cause rotation. Force is zero on a current carrying loop in a uniform magnetic field. The loop is in a uniform magnetic field:

The Magnetic Field Exerts Force On Currents And If We Place A Current Loop In A Magnetic Field, A Torque Due To The Magnetic Force On The Loop Tends To Rotate The Loop.

Let at any instant the normal to the plane of loop make an angle q with the direction of magnetic field vector b and i be the current in the loop. 1 shows a rectangular loop of wire that carries a current i and has sides of lengths a and b. A rectangular current carrying coil in the magnetic field.

So, Magnetic Moment, M = Ia.

The torque on a current loop. Torque experienced by a current loop in a uniform magnetic field. It carries a current of i along pqrs.