physics class Video Lectures Class 11th & 12th (By Amit Mehta) Gauss Law Part 7.1 Capacitors Video 12 Switching Circuits Abinitio method X^n Abinitio method sinx and cos x Abinitio method Angle between two vectors Aninitio method e^x Application no 3 of dimensional analysis NUMERICALS 1 Numerical problems on concept of unit vectors Numerical problems on potentiometer Numerical on solid non conducting sphere Numerical problems on DOT PRODUCT Numerical on Applications of Gauss Nodal analysis part 3 Nodal analysis part 2 Nodal analysis part 1 Mesh analysis part 4 Mesh analysis part 3 Mesh analysis part 2 Mathematical tools 1 Magnetic fiels due to a current carrying straight conductor Mesh analysis in detail Maximum power transfer theorem Magnetic Fieldbdue to a current carrying SOLENOID on its axis MAGNETIC FIELD DUE TO CURRENT CARRYING RING ON ITS AXIS Mathematical tools Magnetic Field due to a current carrying ring at its centre Mathematical tools 3 Mathematical tools 2 Magnetic effects of current BIOT SAVART LAW Logarithms Linear equations Introduction to INTEGRATION Gauss law Introduction on VECTORS First application of dimensional analysis Insertion of dielectric at constant voltage Concept of Position vector Combination or propagation of errors Concept of drift velocity Combination or propagation of errors NUMERICALS Combination and propagation of errors NUMERICALS Change of fundamental quantities and application no 3 Chain rule of differentiation Capacitance of a parallel plate capacitor Calculation of resistance Calculation of absolute and relative errors Breakdown voltage Arrangements of plates in capacitors to have different values of capacitances Applications of Gauss Law Applications of derivatives Application of INTEGRATION Equipotential method Electric field due to ring on its axis Electric metering bill calculation First application of dimensional analysis 1 Insertion of dielectric at constant charge Equivalent time and power calculation when coils bulbs connected in series and parallel Infinte ladder networks Equivalent Resistance using Balanaced Wheatstone Bridge Indroduction on capacitors INDEFINITE INTEGRALS Equivalent resistance of 3D symmetrical circuits Equivalent resistance in symmetrical circuits Equivalent resistance in symmetrical circuits part 2 Equilubrium problem Equilubrium problem in electrostatics Electrical appliances Energy stored in parallel plate capacitors Emf ,potential difference and internal resistance of a battery or a Cell Electric power and electrical energy problems Electric potential due to solid non conductor Electrical field due to a solid wire of uniform charge density Electrical appliances Electric field due to solid non conductor Electric field due to a uniformly charged infinite plane sheet using Gauss law Electric field due to a solid and hollow conducting sphere Electric field due to a point charge Dielectric slabs placed between the plates Electric field due to a infinitely long line charge using Gauss law Dielectric slabs placed between the plates 2 Electric energy and electric power problems Dielectric slabs placed between the plates 1 Electric current numericals Easiest method of solving unbalanced WHEATSTONE BRIDGE Dielectric slabs between plates of capacitor Detailed description of Gauss Law DOT OR SCALAR PRODUCT Derived quantities Differentiation study of slopes DEFINITE INTEGRALS Current electricity Cube problems of equivalent resistance Cross product or Vector product Cramer's rule for solving linear equations Connection of more than 2 capacitors Application of dimensional analysis no 3 Application of derivatives
