Electomagnetism: Galvanometer
... resulting force produced. We will also discover how to create and detect magnetic fields. A Galvanometer is basically a current detector that utilizes the relationship between electricity and magnetism to determine the direction and magnitude of current. Originally they were used to find faults in t ...
... resulting force produced. We will also discover how to create and detect magnetic fields. A Galvanometer is basically a current detector that utilizes the relationship between electricity and magnetism to determine the direction and magnitude of current. Originally they were used to find faults in t ...
Part - Saraswathi Velu College of Engineering
... 2. Derive an expression for the electric field due to a straight uniformly charged wire of length ‘L’ in meters and with a charge density of +λ c/m at the point p which lies along the perpendicular bisector of wire. (10) 3. State and prove Gauss’s law. Describe any two applications of Gauss’s law?(1 ...
... 2. Derive an expression for the electric field due to a straight uniformly charged wire of length ‘L’ in meters and with a charge density of +λ c/m at the point p which lies along the perpendicular bisector of wire. (10) 3. State and prove Gauss’s law. Describe any two applications of Gauss’s law?(1 ...
23. Magnetic fields and materials
... Since ferromagnetism is conceptually a lot like paramagnetism, we expect that it will be explainable in terms of the alignment of many atomic scale magnetic moments. This is indeed the case. However, with ferromagnetism there is an important modification: one finds that the moments of many atoms or ...
... Since ferromagnetism is conceptually a lot like paramagnetism, we expect that it will be explainable in terms of the alignment of many atomic scale magnetic moments. This is indeed the case. However, with ferromagnetism there is an important modification: one finds that the moments of many atoms or ...
