Gauss` Law for Electricity Gauss` Law for Magnetism
... field is proportional to the point source density, so the form of Gauss' law for magnetic fields is then a statement that there are no magnetic monopoles. ...
... field is proportional to the point source density, so the form of Gauss' law for magnetic fields is then a statement that there are no magnetic monopoles. ...
17. Maxwell`s Equations
... Different colors of light have different wavelengths (and hence frequencies). But all of them are quite small. Red light has wavelength 700nm while blue light has a shorter wavelength of 475nm. There are electromagnetic waves of all possible wavelengths. Some of them were known before, but were thou ...
... Different colors of light have different wavelengths (and hence frequencies). But all of them are quite small. Red light has wavelength 700nm while blue light has a shorter wavelength of 475nm. There are electromagnetic waves of all possible wavelengths. Some of them were known before, but were thou ...
faraday`s law in integral and point form
... given current, or the current associated with a given magnetic field, provided that the electric field does not change over time. In its original form, Ampere's circuital law relates a magnetic field to its electric current source. The law can be written in two forms, the "integral form" and the " ...
... given current, or the current associated with a given magnetic field, provided that the electric field does not change over time. In its original form, Ampere's circuital law relates a magnetic field to its electric current source. The law can be written in two forms, the "integral form" and the " ...
