Suppose that has a molecular dipole, the molecule creates an electric field in space whose value and direction depends on the dipole orientation in space.
Suppose we have a dipolar molecule because its thermal energy is rotating on its axis and continuously change their orientation in space, if you draw a closed in space close to where the dipole is oscillating, the variation of electrical flow through the surface which limits the circuit acts as a displacement current ic equivalent. Therefore, the rotational magnetic field is greater than zero in the vicinity of an oscillating dipole, ie electric variable flow creates a magnetic field on the border of the area concerned.
Source: Saigon Agricultural School
As the molecule is rotating on its axis, the integral of the electric field flowed increases or decreases through the area classified according to where in the spin cycle is so that the displacement current changes its direction continuously. This implies that the curl of the magnetic field changes constantly along the selected curve and therefore it is possible to find a closed curve through which the magnetic flux integral unchanged. What causes an induced electromotive force. That is, using the oscillation of a dipole in space and placing a circuit conductor in the vicinity, it creates an electrical potential difference and therefore a current in the circuit, and if the circuit is resistive heat dissipation character.
In the above figure can be viewed as the variation of power flowed on the surface that limits the black curve creates a magnetic field on the curve. As the power flow variation occurs in both directions positive and negative, the magnetic field generated also varies its meaning. Therefore, in the electrical circuit is red and is perpendicular to the magnetic field lines induces an electromotive force by the magnetic flux variation experienced in the area limited.
Throughout the process extracts the energy of the dipole oscillation, which is achieved by cooling, transferring its energy to a resistive circuit. The approach proposed here could serve to eliminate such angular component particle beam passing through a canyon.
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