Physics Exam > Physics Notes > Physics for IIT JAM, UGC - NET, CSIR NET > Applications of Ampere's Theorem - Magnetism, Electromagnetic Theory, CSIR-NET Physical Sciences
Applications of Ampere's Theorem - Magnetism, Electromagnetic Theory, CSIR-NET Physical Sciences | Physics for IIT JAM, UGC - NET, CSIR NET PDF Download
Example: Magnetic Field Inside A Long Cylindrical Conductor
A cylindrical conductor with radius R carries a current I. The current is uniformly distributed over the cross-sectional area of the conductor. Find the magnetic field as a function of the distance r from the conductor axis for points both inside (r<R) and outside (r>R) the conductor.
From Ampere’s Law, we have:
We will take the ampere loop to be a circle. Hence, for points inside the conductor, the ampere loop will be a circle with radius r, where r<R. The current enclosed will be 
For points outside the conductor, the ampere loop will be a circle of radius r, where r>R . The current enclosed will just be I.
Example: Magnetic Field Of A Solenoid
A solenoid consists of a helical winding of wire on a cylinder, usually circular in cross section. If the solenoid is long in comparison with its cross-sectional diameter and the coils are tightly wound, the internal field near the midpoint of the solenoid’s length is very nearly uniform over the cross section and parallel to the axis, and the external field near the midpoint is very small. Use Ampere’s law to find the field at or near the center of such a long solenoid. The solenoid has n turns of wire per unit length and carries a current I.
From Ampere’s Law, we have:
Following the integration path, we have:
Example: Magnetic Field Of A Toroidal Solenoid
The figure above shows a doughnut-shaped toroidal solenoid, wound with N turns of wire carrying a current I. Find the magnetic field at all points.
From Ampere’s Law, we have:
Let’s consider path 1,
No current is enclosed by the path. Hence, the magnetic field along the path is 0.
Let’s consider path 3,
The net current enclosed by the path is 0. Hence, the magnetic field along the path is 0.
Let’s consider path 2,
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FAQs on Applications of Ampere's Theorem - Magnetism, Electromagnetic Theory, CSIR-NET Physical Sciences - Physics for IIT JAM, UGC - NET, CSIR NET
| 1. What is Ampere's Theorem and how is it applied in magnetism and electromagnetic theory? |  |
Ans. Ampere's theorem is a fundamental principle in electromagnetism that relates the magnetic field around a closed loop to the electric current passing through the loop. It states that the line integral of the magnetic field around a closed loop is equal to the product of the permeability of free space and the total current passing through the loop.
In magnetism, Ampere's theorem is used to calculate the magnetic field produced by a current-carrying wire or a solenoid. By applying Ampere's theorem to a closed loop around the wire or solenoid, one can determine the magnetic field at any point in space.
In electromagnetic theory, Ampere's theorem is a key tool in understanding the relationship between electric currents and magnetic fields. It is used, for example, to derive Maxwell's equations, which describe the behavior of electromagnetic fields.
| 2. How is Ampere's Theorem used in the CSIR-NET Physical Sciences Physics exam? | |
Ans. Ampere's theorem is an important concept in the CSIR-NET Physical Sciences Physics exam, particularly in the topics of magnetism and electromagnetic theory. Questions may be asked on the application of Ampere's theorem to calculate magnetic fields, determine the behavior of current-carrying wires or solenoids, or derive other electromagnetic equations.
Candidates are expected to have a thorough understanding of Ampere's theorem and its applications in order to solve complex problems related to magnetism and electromagnetic theory in the exam.
| 3. Can Ampere's Theorem be used to calculate the magnetic field of a circular loop carrying current? | |
Ans. Yes, Ampere's theorem can be used to calculate the magnetic field of a circular loop carrying current. By applying Ampere's theorem to a closed loop encircling the circular loop, one can determine the magnetic field at any point on the loop.
The integral form of Ampere's theorem states that the line integral of the magnetic field around a closed loop is equal to the product of the permeability of free space and the total current passing through the loop. By choosing an appropriate closed loop that encircles the circular loop, the magnetic field can be calculated.
| 4. How does Ampere's Theorem relate to Maxwell's equations? | |
Ans. Ampere's theorem is one of the four Maxwell's equations, which are a set of fundamental equations that describe the behavior of electromagnetic fields. Ampere's theorem, along with the other three equations (Gauss's law for electric fields, Gauss's law for magnetic fields, and Faraday's law of electromagnetic induction), forms a complete description of the behavior of electric and magnetic fields.
Ampere's theorem specifically relates the magnetic field to the electric current, while the other three equations describe the sources and behavior of electric and magnetic fields in different situations. By combining all four equations, one can derive a comprehensive understanding of how electric and magnetic fields interact and propagate.
| 5. Can Ampere's Theorem be used to calculate the magnetic field of a non-uniform current distribution? | |
Ans. Yes, Ampere's theorem can be used to calculate the magnetic field of a non-uniform current distribution. However, it may require more advanced mathematical techniques and considerations.
In cases where the current distribution is non-uniform, Ampere's theorem can still be applied by considering small segments of the current-carrying wire or conductor and summing up the contributions from each segment. This requires dividing the wire or conductor into small elements and integrating the magnetic field contributions over each element.
The overall magnetic field can then be determined by summing up the contributions from all the elements using the integral form of Ampere's theorem. This approach allows for the calculation of the magnetic field in complex situations involving non-uniform current distributions.
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