what is a conceptual orientation
orientation sesions are conducted because
Nothing is known of her sexual orientation.
The Joker's sexual orientation is not written into his character.
Soko's sexual orientation is heterosexual/straight.
electronic polarization ionic or atomic polarization orientation or dipole polarization space charge polarization
William Nelson Stoops has written: 'The dielectric polarization of alcohols ..' -- subject(s): Alcohols, Dielectrics, Polarization (Electricity)
Yes, diffraction gratings can be used for polarization purposes by separating light waves based on their polarization states. They can also be designed to manipulate the polarization of incident light by controlling the orientation of the grating's grooves.
Ferroelectrics exhibit spontaneous electric polarization that can be reversed by an external electric field, unlike ordinary dielectrics which do not possess this property. Ferroelectrics also typically have a hysteresis loop in their polarization-electric field behavior, demonstrating a memory effect. Additionally, ferroelectrics often have higher dielectric constants and thus can store more charge than ordinary dielectrics.
Polarization.
Michel Borghini has written: 'Proton spin orientation' -- subject(s): Nuclear orientation, Polarization, Protons
Longitudinal waves do not exhibit polarization, which is a characteristic of transverse waves. Polarization refers to the orientation of the oscillations of the wave with respect to its direction of propagation. Since longitudinal waves have their oscillations parallel to the direction of propagation, they cannot exhibit polarization.
The amplitude of an electromagnetic wave does not change with polarization. Polarization refers to the orientation of the electric field component of the wave, while amplitude refers to the strength or magnitude of the wave. Changing the polarization of a wave does not alter its amplitude.
The direction of polarization refers to the orientation of the electric field in an electromagnetic wave. It can be vertical, horizontal, diagonal, circular, or elliptical, depending on how the wave vibrates in relation to its direction of propagation.
Polarization of waves refers to the orientation of the oscillations of a wave as it travels through space. Waves can be polarized in various ways, such as linear, circular, or elliptical polarization. Polarization is important in many applications, such as in telecommunications, where it affects the transmission and reception of signals.
The relaxation time for orientation polarization in solid ice is typically in the range of microseconds to milliseconds, depending on the purity and temperature of the ice. This value can be influenced by factors such as crystal structure defects, impurities, and the presence of external electric fields.
The direction of polarization of light is related to the direction of vibration of the electrons that produced it because the oscillation of the electrons creates an oscillating electric field perpendicular to the direction of propagation of light. This electric field determines the orientation of the light wave's vibration, resulting in its polarization direction.