Electrical Properties of Materials
Subject and UNIT: Physics for Electrical Engineering: Unit II: a. Electrical Properties of Materials
The three combinations of quantum numbers, (112), (121) and (211), which give the same eigen value but different eigen functions are called 3-fold degenerate state.
Statement, Postulates, Merits, Example | Electrical Properties of Materials
Subject and UNIT: Physics for Electrical Engineering: Unit II: a. Electrical Properties of Materials
The failures of classical free electron theory were rectified in quantum theory given by Sommerfeld in the year 1928.
Electrical Properties of Materials | Physics for Electrical Engineering
Subject and UNIT: Physics for Electrical Engineering: Unit II: a. Electrical Properties of Materials
Physics for Electrical Engineering: Unit II: Electrical and Magnetic Properties of Materials : Anna university solved problems
Subject and UNIT: Physics for Electrical Engineering: Unit II: a. Electrical Properties of Materials
During the movement of the electrons in the metal rod, the elastic collision takes place. Hence, the electrons near A lose their kinetic energy while electrons near B gain kinetic energy.
Subject and UNIT: Physics for Electrical Engineering: Unit II: a. Electrical Properties of Materials
When an electric field E is applied to an electron of charge ‘e' in a metal rod, the electron moves in opposite direction to the applied field with a velocity vd (Fig. 2.5). This velocity is known as drift velocity.
Electrical Properties of Materials
Subject and UNIT: Physics for Electrical Engineering: Unit II: a. Electrical Properties of Materials
The classical free electron theory of metals was proposed by P. Drude in the year 1900 to explain the electrical conduction in metal. This theory was further extended by H. A. Lorentz in the year 1909.
Subject and UNIT: Physics for Electrical Engineering: Unit II: a. Electrical Properties of Materials
When an electrical current flows through a conductor, then the voltage drop across the conductor is given by the ohm's law
Dielectric Materials and Insulation | Physics for Electrical Engineering
Subject and UNIT: Physics for Electrical Engineering: Unit I: Dielectric Materials and Insulation
Physics for Electrical Engineering: Unit I: Dielectric Materials and Insulation : Assignment Problems
Dielectric Materials and Insulation | Physics for Electrical Engineering
Subject and UNIT: Physics for Electrical Engineering: Unit I: Dielectric Materials and Insulation
Physics for Electrical Engineering: Unit I: Dielectric Materials and Insulation : Part B '16' Marks Questions
Dielectric Materials and Insulation | Physics for Electrical Engineering
Subject and UNIT: Physics for Electrical Engineering: Unit I: Dielectric Materials and Insulation
Physics for Electrical Engineering: Unit I: Dielectric Materials and Insulation : Additional Q and A
Dielectric Materials and Insulation | Physics for Electrical Engineering
Subject and UNIT: Physics for Electrical Engineering: Unit I: Dielectric Materials and Insulation
Physics for Electrical Engineering: Unit I: Dielectric Materials and Insulation : Part - A '2' Marks Q And A - Anna university q and a
Dielectric Materials and Insulation | Physics for Electrical Engineering
Subject and UNIT: Physics for Electrical Engineering: Unit I: Dielectric Materials and Insulation
Physics for Electrical Engineering: Unit I: Dielectric Materials and Insulation : Anna university solved problems