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[DOC File]Sound Waves and Beats
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Sound is a longitudinal wave. All waves can be described by four basic quantities: amplitude, frequency, wavelength, and wave speed. We will measure all of these quantities and determine how they are related to each other. When a wave hits a barrier through which it cannot pass, the wave gets reflected.
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[DOC File]5
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Amplitude modulation (AM) and frequency modulation (FM) are two common means of "carrying" a low-frequency wave (such as a sound wave) on an electromagnetic (radio) wave of much higher frequency. In AM transmission, the low-frequency audio signal is used to "modulate the amplitude" of the high-frequency EM wave.
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[DOC File]Cabrillo College
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The wave created by the dot traveling around the circle looks a lot like a sound wave. If you could keep moving the time dot past 10, it would continue to make the same wave over and over again. Step 3: Finding a function
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[DOC File]Section: 16-1 Topic: Superposition of Waves Type: Factual
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The frequencies of the components are multiples of the frequency of the original. For example, you can synthesise a ‘square wave’ function f(x) Try this by sketching and adding graphs, or by using Multimedia Sound. Use Multimedia Sound to explore other simple combinations of sinusoidal waves. Answers and worked solutions.
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[DOCX File]Physics of Music PHY103 Lab Manual 2011
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Section: 7–2 Topic: Standing Waves Type: Numerical The wave function y(x,t) for a standing wave on a string fixed at both ends is given by y(x,t) = 0.080 sin 6.0x cos 600t where the units are SI. The wavelength of this wave is A) 6.00 m B) 1.05 m C) 600 m D) 0.010 m E) impossible to tell given this information about the standing wave.
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[DOCX File]physics7ar.files.wordpress.com
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The computer software lets us look at sound waves as a signal as a function of time (waveform view) and as in terms of their frequency distribution (frequency or spectral view). To do compute the spectrum we will use the algorithm known as the Fast Fourier Transformation (FFT).
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Characteristics Of Sound Waves: Amplitude, Frequency, Wavelengt…
In the case of sound, a longitudinal wave, the y refers to the change in air pressure that makes up the wave. A is the amplitude of the wave (a measure of loudness), and f is the frequency. Time is represented with t, and the sine function requires a factor of 2 when evaluated in radians.
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[DOC File]Temple for DMA Integrated Units
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(a) By considering how a sound wave travels through the air, explain how sound can cause a piezoelectric film to generate a potential difference. (4) (b) Explain why the crystals used in the T-shirt need to be in the form of a large, thin film.
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[DOC File]Excel graphs in Physics
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The wave reaches a leaf floating on the pond a distance of 3.00 m away. The leaf then begins to oscillate according to the graph shown in the figure. (a) find the speed of water waves, (b) Find the period and frequency of the wave. (c) Find the wavelength and amplitude of the wave. A sound wave of frequency 500 HZ travels from air into water.
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[DOC File]TAP311-0: Speed, frequency and wavelength
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as wave function for a particle that can make a transition, we need time dependent wave function Ψ(x,t), as it is two different states m and n, we have a superposition. Ψm,n(x,t) = a Ψm(x,t) + b Ψn(x,t) initially say a = 1, b = 0, electron in excited state, m. while in transition a < 1, b
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Sound wave function