I E Irodov Electrodynamics (Constant Magnetic Field and Magnetics) Q. 3.223
I E Irodov Electrodynamics (Constant Magnetic Field and Magnetics)
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Q. 3.223 Find the magnetic induction of the field at the point 0 of a loop with current I, whose shape is illustrated
(a) in fig. 3.60a, the radii a and b, as well as the angle φ are known;
(b) in Fig. 3.60b, the radius a and the side b are known.
Complete I E Irodov Electrodynamics (Constant Magnetic Field and Magnetics) Q 3.223 Video Solution -
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Electrodynamics
Electrodynamics is defined as the branch of mechanics dealing with the interaction of the electric current with magnetic fields or other electrical currents.
Electrodynamics is a foundational theory that every physics student and electrical engineering student knows well. The subject starts with writing Maxwell's equations and the constitutive relationships between the various fields, but even here there is a multitude of materials in which the theory can be applied, and surprising new phenomena can be found within the confines of ordinary classical electrodynamics.
Constant Magnetic Field and Magnetics
The science of magnetism is known as Magnetics. When a magnetic field grows or decreases, the force that it exerts on electrons changes. As a result, the forces on the electrons are unbalanced and moving. When the magnetic field becomes constant, the electrons attain a new equilibrium and stop moving.
Magnetism is defined as a phenomenon of attraction and repulsion produced by a moving electric charge. The affected region around a moving charge comprises an electrical field as well as a magnetic field. A bar magnet is the most familiar example of magnetism, attracted to a magnetic field and able to attract or repel other magnets.
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Important Topics Covered in Electrodynamics IE Irodov:
In electrodynamic equations, the Coulomb constant, the electric force constant, or the electrostatic constant (denoted ke, k, or K), is a constant of proportionality. The value of this constant depends on the medium where the objects being charged are immersed in.
Following topics are covered in I E Irodov solutions:
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Constant Electric Field in Vacuum | Video Solutions |
Conductors and Dielectrics in an Electric Field | Video Solutions |
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