What is Wave: Definition and 999 Discussions

In physics, mathematics, and related fields, a wave is a propagating dynamic disturbance (change from equilibrium) of one or more quantities, sometimes as described by a wave equation. In physical waves, at least two field quantities in the wave medium are involved. Waves can be periodic, in which case those quantities oscillate repeatedly about an equilibrium (resting) value at some frequency. When the entire waveform moves in one direction it is said to be a traveling wave; by contrast, a pair of superimposed periodic waves traveling in opposite directions makes a standing wave. In a standing wave, the amplitude of vibration has nulls at some positions where the wave amplitude appears smaller or even zero.
The types of waves most commonly studied in classical physics are mechanical and electromagnetic. In a mechanical wave, stress and strain fields oscillate about a mechanical equilibrium. A mechanical wave is a local deformation (strain) in some physical medium that propagates from particle to particle by creating local stresses that cause strain in neighboring particles too. For example, sound waves are variations of the local pressure and particle motion that propagate through the medium. Other examples of mechanical waves are seismic waves, gravity waves, surface waves, string vibrations (standing waves), and vortices. In an electromagnetic wave (such as light), coupling between the electric and magnetic fields which sustains propagation of a wave involving these fields according to Maxwell's equations. Electromagnetic waves can travel through a vacuum and through some dielectric media (at wavelengths where they are considered transparent). Electromagnetic waves, according to their frequencies (or wavelengths) have more specific designations including radio waves, infrared radiation, terahertz waves, visible light, ultraviolet radiation, X-rays and gamma rays.
Other types of waves include gravitational waves, which are disturbances in spacetime that propagate according to general relativity; heat diffusion waves; plasma waves that combine mechanical deformations and electromagnetic fields; reaction-diffusion waves, such as in the Belousov–Zhabotinsky reaction; and many more.
Mechanical and electromagnetic waves transfer energy, momentum, and information, but they do not transfer particles in the medium. In mathematics and electronics waves are studied as signals. On the other hand, some waves have envelopes which do not move at all such as standing waves (which are fundamental to music) and hydraulic jumps. Some, like the probability waves of quantum mechanics, may be completely static.
A physical wave is almost always confined to some finite region of space, called its domain. For example, the seismic waves generated by earthquakes are significant only in the interior and surface of the planet, so they can be ignored outside it. However, waves with infinite domain, that extend over the whole space, are commonly studied in mathematics, and are very valuable tools for understanding physical waves in finite domains.
A plane wave is an important mathematical idealization where the disturbance is identical along any (infinite) plane normal to a specific direction of travel. Mathematically, the simplest wave is a sinusoidal plane wave in which at any point the field experiences simple harmonic motion at one frequency. In linear media, complicated waves can generally be decomposed as the sum of many sinusoidal plane waves having different directions of propagation and/or different frequencies. A plane wave is classified as a transverse wave if the field disturbance at each point is described by a vector perpendicular to the direction of propagation (also the direction of energy transfer); or longitudinal if those vectors are exactly in the propagation direction. Mechanical waves include both transverse and longitudinal waves; on the other hand electromagnetic plane waves are strictly transverse while sound waves in fluids (such as air) can only be longitudinal. That physical direction of an oscillating field relative to the propagation direction is also referred to as the wave's polarization which can be an important attribute for waves having more than one single possible polarization.

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  1. F

    B Why doesn't the electron "wave" collapse at the double-slit?

    This is dumb question, so please bear with me. In the double-slit experiment where they fire a single electron at time, as you can see the electron gun fires a single electron. Now the electron travels as a wave. Now my question is, why doesn't the wave collapse when the wave encounters...
  2. I

    I Quantum Mechanics Wave Function in 3D

    I was wondering if it's possible to plot a wave function that is a function of 3 coordinates, such as (x, y, z). The text my class uses calls this Quantum Mechanics in 3 dimensions, but wouldn't this technically by four dimensions?
  3. Vivek98phyboy

    Reflection of inverted waves to form a standing wave

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  4. greg_rack

    Distance traveled by a particle in a transverse wave

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  5. BohmianRealist

    I Is this why a pilot wave theory cannot be accepted?

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  6. J

    Frequency and Sound Wave Reflection

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  7. F

    I What is an interpretation of wave of field?

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  8. danielhaish

    I Why quantum wave function collapse is not consider a signal?

    I read about the non-communication theorem and I understand why when changing one practical will not change the other . But suppose that there is two observers that doing the double slit experiment, but using it with two entanglement practicals. observer one should send signal of yes or...
  9. T

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  10. I

    I Complex Conjugate of Wave Function

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  11. E

    What is the value of ω for the following wave?

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  12. omegax241

    A strange wave function of the Hydrogen atom

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  13. P

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  14. S

    B Does Motion Affect Perceived Wavelength and Light Speed?

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  15. F

    I Why QFT still goes well while it lacks the notion of wave function?

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  16. S

    B Converting Lux to W/m^2 for Solar Radiation Measurement

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  17. T

    B How does a wave collapse not violate the speed of light?

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  18. jjson775

    Normalization of the wave function for the electron in a hydrogen atom

  19. Z

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  20. J

    A Nonlinear Wave Equation (Nonlinear Helmholtz)

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  21. E

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  22. StevieTNZ

    B "Test of wave function collapse suggests gravity is not the answer"

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  23. F

    Is COMSOL the Solution for Realistic Wave Problems?

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  24. LCSphysicist

    Is Reflection of an Incident Wave Lagging or Advancing?

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  25. R

    B Gravitational Waves: Prevalence Across the Universe

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  26. DarkMattrHole

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  27. LCSphysicist

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  28. T

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  29. E

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  30. X

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  31. M

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  32. M

    Length of a Wave Train in Special Relativity

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  33. thaiqi

    I Photon & Wave Mode: Equivalent or Not?

    I heard there is a saying that photon and light in a certain wave mode are equivalent. Is it so ?
  34. Riccardo Marinelli

    Initial condition of Wave functions with Yukawa Potential

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  35. AN630078

    Sound Wave Interference and Finding the Path Differences with Diagrams

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  36. J

    The collapse of the wave function?

    I never took any physics courses nor don't have a background in mathematics never the less I became very interested in quantum physics after reading Sean Carroll's book Something deeply hidden. One of the difficult things for me to wrap my head around was the concept of superposition and...
  37. S

    The mathematical definition of "wave"?

    Is there a standard mathematical definition for "wave"? What is the definition? Assuming that there is a definition, what are the mathematical definitions of the properties of waves? For example, how is the "group" of a wave defined? ( as in the "group" that has a "group velocity"). I'm not...
  38. pasomatt

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  39. G

    Origin of the "underpressure" or "negative phase" in a blast wave

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  40. M

    B Can a particle / wave pass through a sheet of material?

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  41. P

    Stopping 80Hz Wave: Solutions to Eliminate Noise

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  42. manases

    I Pilot Wave Theory: Against the Rest of Quantum Mechanics?

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  43. manases

    I Investigations to find the cause of wave collapse?

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  44. R

    I How do you normalize this wave function?

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  45. O

    A Inhomogeneous wave equation: RHS orthogonal to homogeneous solutions

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  46. J

    Question about an Eqn. in Shankar - wave function probability

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  47. C

    How Is the Energy Density of EM Waves Related to Capacitors and Inductors?

    The energy density of an EM wave is given as (1/2) ϵ E^2 + (1/(2μ)) B^2. This is derived from the energy density of the electric and magnetic fields of capacitors and inductors, respectively. But why should the energy density of the fields of capacitors and inductors be the same as that of...
  48. E

    B Wave equation with a slight alteration

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  49. wolfy

    B When the wave function collapses, how long is it collasped?

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  50. A

    Light as an electromagnetic wave

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