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⭐ Core Definition: In-phase

In physics and mathematics, the phase (symbol φ or ϕ) of a wave or other periodic function $F$ of some real variable $t$ (such as time) is an angle-like quantity representing the fraction of the cycle covered up to $t$ . It is expressed in such a scale that it varies by one full turn as the variable $t$ goes through each period (and $F(t)$ goes through each complete cycle). It may be measured in any angular unit such as degrees or radians, thus increasing by 360° or $2\pi$ as the variable $t$ completes a full period.

This convention is especially appropriate for a sinusoidal function, since its value at any argument $t$ then can be expressed as $\varphi (t)$ , the sine of the phase, multiplied by some factor (the amplitude of the sinusoid). (The cosine may be used instead of sine, depending on where one considers each period to start.)

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👉 In-phase in the context of Bonding molecular orbital

In theoretical chemistry, the bonding orbital is used in molecular orbital (MO) theory to describe the attractive interactions between the atomic orbitals of two or more atoms in a molecule. In MO theory, electrons are portrayed to move in waves. When more than one of these waves come close together, the in-phase combination of these waves produces an interaction that leads to a species that is greatly stabilized. The result of the waves' constructive interference causes the density of the electrons to be found within the binding region, creating a stable bond between the two species.

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⭐ Core Definition: In-phase
👉 In-phase in the context of Bonding molecular orbital
In-phase in the context of Fast magnetosonic wave

In-phase in the context of Fast magnetosonic wave

In physics, magnetosonic waves, also known as magnetoacoustic waves, are low-frequency compressive waves driven by mutual interaction between an electrically conducting fluid and a magnetic field. They are associated with compression and rarefaction of both the fluid and the magnetic field, as well as with an effective tension that acts to straighten bent magnetic field lines. The properties of magnetosonic waves are highly dependent on the angle between the wavevector and the equilibrium magnetic field and on the relative importance of fluid and magnetic processes in the medium. They only propagate with frequencies much smaller than the ion cyclotron or ion plasma frequencies of the medium, and they are nondispersive at small amplitudes.

There are two types of magnetosonic waves, fast magnetosonic waves and slow magnetosonic waves, which—together with Alfvén waves—are the normal modes of ideal magnetohydrodynamics. The fast and slow modes are distinguished by magnetic and gas pressure oscillations that are either in-phase or anti-phase, respectively. This results in the phase velocity of any given fast mode always being greater than or equal to that of any slow mode in the same medium, among other differences.

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In-phase in the context of "Bonding molecular orbital"

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⭐ Core Definition: In-phase

👉 In-phase in the context of Bonding molecular orbital

In-phase in the context of Fast magnetosonic wave