Amplitude A
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| amplitude of wave = 0.18 m, maximum displacement from equilibrium position http://iwant2study.org/ospsg/index.php/112 Direct Link |
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amplitude of wave = 0.20 m, maximum displacement from equilibrium position
author: Andrew Duffy, lookang, tina
author EJS: Francisco Esquembre |
wavelength λ
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| wavelength of wave = 1.70 m The wavelength λ wavelength is the distance between two sequential crests or troughs (or other equivalent points) http://iwant2study.org/ospsg/index.php/112 Direct Link |
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wavelength of wave = 0.50 m The wavelength λ
wavelength is the distance between two sequential crests or troughs (or other equivalent points)
author: Andrew Duffy, lookang, tina
author EJS: Francisco Esquembre |
Period T
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| period of wave = 3.00 s, The period T is the time for one complete cycle of an oscillation of a wave http://iwant2study.org/ospsg/index.php/112 Direct Link |
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period of wave = 3.00 s, The period T is the time for one complete cycle of an oscillation of a wave
author: Andrew Duffy, lookang, tina
author EJS: Francisco Esquembre |
angular frequency f
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| The frequency f = 1/T is the number of periods per unit time (per second) and is typically measured in hertzhttp://iwant2study.org/ospsg/index.php/112 Direct Link |
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The frequency f = 1/T is the number of periods per unit time (per second) and is typically measured in hertz
author: Andrew Duffy, lookang, tina
author EJS: Francisco Esquembre |
angular velocity of wave ω
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| angular frequency ω = 2.09 s, The angular frequency ω represents the frequency in radians per second.http://iwant2study.org/ospsg/index.php/112 Direct Link |
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angular frequency ω = 2.09 s, The angular frequency ω represents the frequency in radians per second.
author: Andrew Duffy, lookang, tina
author EJS: Francisco Esquembre |
phase difference ϕ
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| the phase of a vibration (that is, its position within the vibration cycle) ϕ measured in radians taking ratio "ϕ/(2π)= Δt/T", ϕ = 2π(2.5-0.75)/3 =3.7 rad approximately |
wave speed v
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| sinusoidal waveform traveling at constant speed v is given by v = f λ http://iwant2study.org/ospsg/index.php/112 Direct Link |
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| sinusoidal waveform traveling at constant speed v is given by v = f λ
author: Andrew Duffy, lookang, tina
author EJS: Francisco Esquembre |
maximum transverse speed vmax
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| The maximum transverse velocity is vmax = Aω and it occurs when the particle on the wave travels passes through the equilibrium position http://iwant2study.org/ospsg/index.php/112 Direct Link |
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| The maximum transverse velocity is vmax = Aω and it occurs when the particle on the wave travels passes through the equilibrium position
author: Andrew Duffy, lookang, tina
author EJS: Francisco Esquembre |
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