Class11

Equations for uniformly accelerated motion along a straight line.

Equation of motion by calculus method

Analytical treatment of the triangle law of vector addition

Analytical treatment of the parallelogram law of vector addition

Show that:\left(\overrightarrow A-\overrightarrow B\right)\times\left(\overrightarrow A+\overrightarrow B\right)=2\left(\overrightarrow A\times\overrightarrow B\right)

Impulse as the product of force and time

Class12

Coulomb’s law: Force between two-point charges

Permittivity and Dielectric constant

Principle of Superposition

Electric field intensity due to a point charge

Electric field intensity at a point on the axial line of an electric dipole

Electric field intensity at a point on the equatorial line of an electric dipole

Electric field intensity at a point due to a short electric dipole

Electric dipole in uniform electric field

Potential energy of dipole

Proof of Gauss’s theorem

Electric field intensity due to uniformly charged infinitely long straight wire

Electric field intensity due to a uniformly charged thin spherical shell

Electric field intensity due to non-conducting charged solid sphere

Electric field due to a thin infinite plane sheet of charge

Electric potential due to a point charge

Electric field intensity due to two thin infinite parallel sheets of charge

Electric Potential any point due to an Electric dipole

Force on a current-carrying conductor in a uniform magnetic field

Biot Savart Law

Magnetic field due to infinitely long current carrying straight wire

Magnetic field due to a current-carrying circular loop