A wire carrying current i has the shape

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This action cannot be undone. This will permanently delete All Practiced Questions. A wire carrying current l has the shape as shown in the adjoining figure. Linear parts of the wire are very long and parallel to X-axis while the semicircular portion of radius R is lying in the Y-Z plane. Magnetic field at point O is : 1. An electron moving in a circular orbit of radius r makes n rotations per second.

A wire carrying current i has the shape

Linear parts of the wire are very long and parallel to X-axis while semicicular portion of radius R is lying in Y-Z plane. A wire carrying current I has the shape as shown in the adjoining figure. Magnetic field at point O is. A wire carrying current I has the shape as shown in adjoining figure. Linear parts of the wire are very long and parallel to X-axis while semicircular portion of radius R is lying in Y-Z plane. A long wire carrying current 'I' is bent into the shape as shown in the figure. The net magnetic field intensity at the centre 'O' is. A wire carrying current i is shaped as shown. Section A B is a quarter circle of radius r. The magnetic field is directed.

The magnetic field at point O is. Information about A wire carrying current I has the shape as shown in the adjoining figure.

Linear parts of the wire are very long and parallel to X-axis while semicicular portion of radius R is lying in Y-Z plane. A long wire carrying current 'I' is bent into the shape as shown in the figure. The net magnetic field intensity at the centre 'O' is. A wire loop carrying current I is placed in the x-y plane as shown. Magnetic induction at P is. A conducting wire carrying a current I is bent into the shape as shown. The net magnetic field at the centre O of the circular arc of radius R.

Moving charges experience a force in a magnetic field. If these moving charges are in a wire—that is, if the wire is carrying a current—the wire should also experience a force. However, before we discuss the force exerted on a current by a magnetic field, we first examine the magnetic field generated by an electric current. We are studying two separate effects here that interact closely: A current-carrying wire generates a magnetic field and the magnetic field exerts a force on the current-carrying wire. A connection was established that electrical currents produce magnetic fields.

A wire carrying current i has the shape

When a current flows in a wire, it creates a circular magnetic field close magnetic field Area surrounding a magnet that can exert a force on magnetic materials. This magnetic field can deflect close deflect To cause something to change direction. The strength of the magnetic field is greater closer to the wire, and increases if the current increases. The direction of the current and magnetic field can be found using the right hand grip rule. Coil the fingers of the right hand as if holding the handlebars of a bicycle, with the thumb pointing away from the hand.

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Linear parts of the wire are very long and parallel to X-axis while the semicircular portion of radius R is lying in the Y-Z plane. A long straight wire carrying current I is bent into the shape as shown in the figure. Hospitality and Tourism Change. A square loop, carrying a steady 1, is placed in a horizontal plane n A wire carrying current I has the shape as shown in the adjoining figure. A part of a long wire carrying a current i is bent into a circle of radius r as shown in figure. Gender Male Female Others. Continue with Google. A wire carrying current i is shaped as shown. Two circular coils 1 and 2 are made from the same wire but the radiu Topic: Electrostats. Find important definitions, questions, meanings, examples, exercises and tests below for A wire carrying current I has the shape as shown in the adjoining figure. A beam of electrons passes underfected throgh unifromly perpendicula Two identical long conducting wires AOB and COD are placed at right angle to each other, with one above other such that O is their common point for the two. Doc 17 Pages.

Surveyors will tell you that overhead electric power lines create magnetic fields that interfere with their compass readings.

Magnetic field at point O is. Connect with our Physics tutors online and get step by step solution of this question. Create Your Account Name. Talk to a tutor now students are taking LIVE classes. Section A B is a quarter circle of radius r. Post Answer. Video Solution. The net magnetic field at the centre O of the circular arc of radius R. The currents flowing in them are I and 2I, respectively. A current loop in a magnetic field 1 experiences a torque whether the field is uniform or non-uniform in all orientations 2 can be in equilibrium in one orentations. Subtopic: Moving Coil Galvanometer. Previous Doubts. Two similar coils of radius R are lying concentrically with their planes at right angles to each other.