A wire carrying current i has the shape
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.
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 semicircular portion of radius R is lying in a Y-Z plane. The magnetic field at point O is. An electron moving in a circular orbit of radius r makes n rotations per second. The magnetic field produced at the centre has magnitude.
A wire carrying current i has the shape
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A conducting wire carrying current I is shown in the figure. Two similar coils of radius R are lying concentrically with their planes at right angles to each other.
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.
Surveyors will tell you that overhead electric power lines create magnetic fields that interfere with their compass readings. Indeed, when Oersted discovered in that a current in a wire affected a compass needle, he was not dealing with extremely large currents. How does the shape of wires carrying current affect the shape of the magnetic field created? We noted earlier that a current loop created a magnetic field similar to that of a bar magnet, but what about a straight wire or a toroid doughnut? How is the direction of a current-created field related to the direction of the current? Answers to these questions are explored in this section, together with a brief discussion of the law governing the fields created by currents. Magnetic fields have both direction and magnitude. Hall probes can determine the magnitude of the field. The field around a long straight wire is found to be in circular loops. The right hand rule 2 RHR-2 emerges from this exploration and is valid for any current segment— point the thumb in the direction of the current, and the fingers curl in the direction of the magnetic field loops created by it.
A wire carrying current i has the shape
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 semicircular portion of radius R is lying in a Y-Z plane. The magnetic field at point O is. An electron moving in a circular orbit of radius r makes n rotations per second. The magnetic field produced at the centre has magnitude. A conducting square frame of side 'a' and a long straight wire carrying current I are located in the same plane as shown n the figure.
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Was this answer helpful? Updated on: Mar 25, A uniform electric field and a uniform magnetic field are acting along A long wire carries a steady curent. Subject Physics. A metallic rod of mass per unit length 0. Previous Doubts. Was this solution helpful? If O is origin then find magnetic field at O. A wire carrying current I has the shape as shown in the adjoining figure. A current loop in a magnetic field. The average radius Click here to Remove Filters and see all subjects. The cure The magnetic field produced at the centre has magnitude.
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.
Magnetic field at point O is. Essay review. Video min. It is bent into a circle of one Copy Link. Welcome Back : To keep connected with us please login with your personal information by phone. A wire carrying current I has the shape as shown in the adjoining figure. This will permanently delete All Practiced Questions. The emf induced in the frame will be proportional to. More from Related Course. A wire carrying current I has the shape as shown in adjoining figure. A thin ring of radius R metre has charge q coulomb uniformly spread The radius of the current part of the wire is R , the linear parts of the wire are very long.
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