Current carrying circular loop acts as AMagnetic dipole BMagnetic flux CMagnetic field DCondenserSubmit The current carrying loop behaves as magnetic dipole because, Aupper face of loop behaves as south pole and lower as north pole. Blower face of loop behaves as south pole and upper face as...
To solve the problem, we need to analyze the magnetic flux through the inner and outer regions of a current-carrying circular loop placed in an infinite plane.1. Understanding the Setup: - We have a circular loop that carrie
themagnetic field at the centre of a circular coilappears to be straight line. The strength of the magnetic field decreases with an increase in distance from the loop. We have also discussed the factors affecting the magnetic field produced by a current carrying circular loop and some interesting...
Calculate the torque on a current-carrying loop in a magnetic field. Motors are the most common application of magnetic force on current-carrying wires. Motors have loops of wire in a magnetic field. When current is passed through the loops, the magnetic field exerts torque on the loops, whi...
charge-current carrying circular stringsmodelssuperconducting stringKaluza-Klein techniqueWe consider two well-known models describing a charged and superconducting string. One is based on a Kaluza-Klein technique, the other uses a scalar potential on the world sheet. For a circular loop in an (...
A current in a circular loop produces a magnetic field pattern like that produced by a magnetic dipole having N and S poles (Figure 32.24). When a current-carrying loop is placed in a magnetic field, the loop experiences forces and a torque much like those experienced by a magnetic dipole...
Currents having the form of a step function or a pulse flowing in a circular loop placed above a conducting medium occupying the half-space give rise to eddy currents within the conducting material. The loop is located either perpendicular or parallel to the interface of the two half-spaces. ...
Magnetic forces and torques play a crucial role in understanding the behavior of current loops in magnetic fields. When a current-carrying wire is placed in a magnetic field, it experiences a magnetic force, which can be calculated using the formula: ...
We draw an Amperian loop within a wire that carries current uniformly across its circular cross-sectional area. Which describes the value of the integral in Ampere's law? - It is proportional to the total current. - It is inversely proportional to the tot ...
What is the direction of magnetic field at the centre of a current- carrying circular loop? View Solution A circular loop of radius 9.7 cm carries a current 2.3 A. Obtain the magnitude of the magnetic field at the centre of the loop . ...