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Equations that pertain to inertial mass like Klein-Gordon and Schrödinger's, use the reduced Compton wavelength.which yields the non-reduced or standard Compton wavelength formula if solved for The Compton wavelength expresses a fundamental limitation on measuring the position of a particle, taking into account This argument also shows that the reduced Compton wavelength is the cutoff below which so the uncertainty in the particle's momentum satisfies Frequency is the number of oscillations completed in a second.

Now it's just algebra. We know ads can be annoying, but they’re what allow us to make all of wikiHow available for free. The Compton wavelength of a particle is equal to the wavelength of a photon whose energy is the same as the mass (see mass–energy equivalence) of that particle. What is the proper definition of angular frequency? wikiHow is a “wiki,” similar to Wikipedia, which means that many of our articles are co-written by multiple authors. How do I calculate the frequency of the wave length 600nm? You can use the formula f = 1/T where T is the time period, f is the frequency. (c is the speed of light, or 2.998 x 10^8 m/s ; λ is the wavelength, or 600 nm from the given information ; and v is the frequency, the variable we are trying to find). If you need to calculate the frequency from the time it takes to complete a wave cycle, or T, the frequency will be the inverse of the time, or 1 divided by T. Display this answer in Hertz as well. One Hz is equal to 1/s. Find the frequency of an electromagnetic wave by dividing its wave-length into the speed of light. To calculate the frequency of a wave, divide the velocity of the wave by the wavelength. Do atoms have a frequency and, if so, does it mean everything vibrates? The rate at which a vibration occurs that constitutes a wave, either in a material (as in sound waves), or in an electromagnetic field (as in radio waves and light), usually measured per second. Thus the uncertainty in position must be greater than half of the reduced Compton wavelength Typical atomic lengths, wave numbers, and areas in physics can be related to the reduced Compton wavelength for the electron which is roughly the same as the cross-sectional area of an iron-56 nucleus. You divide by 600 nm on both sides, of course first paying attention to units and converting 600 nm into 6 x 10^-7 m. The answer ends up being (5 x 10^14) Hz. This article has been viewed 1,250,770 times. To create this article, 25 people, some anonymous, worked to edit and improve it over time. The Compton wavelength is a quantum mechanical property of a particle. The energy of each photon is equal to Planck's constant, multiplied by the frequency of the light, h is always 6.63 * 10^-34 Joule seconds, and the frequency is 6 * 10^14 Hz. Vibration possesses frequency. It was introduced by Arthur Compton in his explanation of the scattering of photons by electrons (a process known as Compton scattering).

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