| Electrostatic - Electric Field | |
| (1) Position |
| (2) Distance |
| (3) Charge |
| (4) Electric Field (Coulomb's Law) |
| (5) Electric Field of a Charge System |
| (6) Electric Field of a Charge Distribution |
 | (7) Force on a Particle |
| (8) Gauss Lay of Electrostatics |
| (9) |
| (10) Integral around a Charge (Gauss Law) |
| (11) Electric Field from a scalar Potential |
| (12) Equation for the Electric Potential |
| (13) Potential Energy of a Charge in a Field |
| (14) Potential Energy of a Charge System |
| (15) Potential Energy of a Charge Distribution |
| (16) Potential Energy in function of the Potential and Electric Field |
| (17) Potential Energy Density |
| Electrostatic - Multipoles and Dielectrics | |
| (18) Expansion of the Electric Potential |
| (19) Electric dipole moment |
| (20) Quadrupole momentum Tensor |
| (21) Direction to the Observer |
| (22) Electric Field of a dipole |
| (23) Electric Polarization |
| (24) Electric Displacement |
| (25) Gauss Law for the Electric Displacement |
| (26) Electric Susceptibility |
| (27) Electric Polarization in function of the Electric Field |
| (28) Dielectric Constant |
| (29) Electric Displacement in function of the Electric Field |
| (30) Gauss Law in a Dielectric Media |
| (31) Electrostatic Energy |
| (32) Potential as difference of Potential Energy |
| (33) Capacitance |
| (34) Capacitance of a Load Q and Potential U |
| (35) Capacitance of two surfaces of size A in a distance d |
| (36) Capacitance of two concentric spheres with an small distance d |
| (37) Capacitance of parallel connected Capacitances |
| (38) Capacitance of serial connected Capacitances |
| (39) Potential Energy of a Capacitance |
| Currency | |
| (40) Current Density is a function of the Electric Field (Ohm's Law) |
| (41) Currency as the Integral of the Current Density over a Cross section |
| (42) Currency as Charge change |
| (43) Linear version of Ohm's Law |
| (44) Resistance in function of the Specific resistance (A section, d length) |
| (45) Resistance of serial connected resistances |
| (46) Resistance of parallel connected resistances |
| (47) Potential Energy |
| (48) Power |
| Magnetostatic - Magnetic Induction | |
| (49) Magnetic Induction |
| (50) Ampere Lay |
| (51) Absence of Magnetic Monopoles |
| (52) Absence of Magnetic Monopoles |
| (53) Amperes Law |
| (54) Vector Potential |
| (55) Equation for the Vector Potential |
| Magnetostatic - Magnetic Moment | |
| (56) Magnetic Moment |
| (57) Vector Potential of the Magnetic Moment |
| (58) Direction to the Observer |
| (59) Magnetic Induction of the Magnetic Moment |
| (60) Force on the Current Distribution |
| (61) Torque on the Current Distribution |
| (62) Magnetization |
| (63) Vector Potential with Magnetization correction |
| (64) |
| (65) Effective Currency Density |
| (66) Ampere Law Correction |
| (67) Magnetic Field |
| (68) Ampere Law |
| (69) Magnetic Energy |
| (70) Energy in terms of Currency Density and Vector Potential |
| (71) Paramagnetic Susceptibility |
| (72) Susceptibility for ferromagnetic substance |
| (73) Ferromagnet with no Currency |
| (74) Effective Magnetic Charge Density |
| (75) Magnetic Potential |
| Electrodynamics | |
| (76) Magnetic Flux |
| (77) Electromotive Force around the Circuit |
| (78) Faraday Law |
| (79) Maxwell Equation - Faraday Law |
| (80) Maxwell Equation - Coulomb Law |
| (81) Maxwell Equation - Absence of Magnetic Monopoles |
| (82) Maxwell Equation - Ampere Law |
| (83) Electrical Field in terms of the Scalar Potential and Vector Potential |
| (84) Magnetic Induction in terms of the Vector Potential |
| (85) Electric Displacement |
| (86) Magnetic Field |
| (87) Equation for the Scalar Potential |
| (88) Equation for Vector Potential |
| (89) Energy Density of the Electromagnetic Field |
| (90) Poynting Vector |
| (91) Conservation Equation |
| (92) Electromangentic Momentum Density |
| (93) Force on a charge particle |
| Electromagnetic Wave Propagation | |
| (94) Propagation Direction |
| (95) Wave Vector |
| (96) Angular Frequency |
| (97) Speed of Light |
| (98) Electric Field Wave |
| (99) Magnetic Field Wave |
| (100) Relation Wave Vector and Angular Frequency |
| (101) Orientation of the Electric Field |
| (102) Orientation of the Magnetic Field |
| (103) Relation between Magnetic and Electric Field |
| (104) Poynting Vector of the Wave |
| (105) Energy Density of the Wave |
Electromagnetism
