Resonance Affective

affective resonance is a resonance in which the amplitude and phase of the oscillations of the wave incident on the system depend significantly on the amplitude and phase of the reflected wave.

The affective resonance effect is associated with oscillations in the system, which cause the emergence of antifriction moments in it, proportional to the acting force. For a dynamic system, affective resonances are qualitatively new types of resonance phenomena. They correspond to polyharmonic oscillatory motion and represent a special case of critical states of a nonlinear system. To increase the amplitude of oscillations and the acting force, an increase in the magnitude of the counteracting moment is required. It is clear from this that oscillations decrease when the moment of resistance becomes greater than the moment developed by the oscillatory force. There is a phenomenon of positive feedback, which enhances the apparent elasticity of the system and creates the effect of viscosity. In this case, the dynamic system becomes similar to an elastic medium - the mechanical equivalent of a liquid (heterodyne).

The so-called resonance phenomena also include: a) phenomena associated with the dependence of the critical speed of sliding of crystal lattices relative to each other on external voltage; b) weak absorption of sound and light waves by crystal lattices; c) many other numerous phenomena encountered in solid state physics.

In mechanical engineering, the use of such systems leads to the fact that the mechanical vibrations of parts become irregular, the value of the average pulse dissipation coefficient tends to zero; dampers can be used to actively suppress resonant vibrations in cars and in road conditions.

Affective resonance - (French resoneance, from Latin) - in psychopathology - an extreme, inadequately strong version of resonating emotional reactions to one-time mental irritations, accompanied by bright, floating explosions of emotion of joy or fear. Characteristic for not