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Cantina Tiere L A ULT : PRE-M sinusoidal...

Cantina Tiere L A ULT : PRE-M sinusoidal wave propagates along a string. In figure (a) and (b) 'y' represents displacement of particle from the mean position. 'X' & 't' have usual meanings. Find :- yin mm) for x-2m → in second) y(in mm) at t=3s D A >x(in m) → x(in m) 20 (b) (a) wavelength, frequency and speed of the wave (b) maximum velocity and maximum acceleration of the particles

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A sinusoidal wave propagates along a string. In figure (a) and (b) 'y' represents displacement of particle from the mean postion. 'x' & 't' have usual meanings. Find :- (a) wavelength, frequency and speed of the wave (b) maximum velocity and maximum acceleration of the particles

A sinusoidal wave is propagating in negative x-direction in a string stretched along x-axis. A particle of string at x=2 cm is found at its mean position and it is moving in positive y-direction at t=1 s. the amplitude of the wave, the wavelength and the angular frequency of the wave are 0.1m,pi//4m and 4pi rad//s , respectively. The equation of the wave is

A sinusoidal wave is propagating in negative x-direction in a string stretched along x-axis. A particle of string at x=2 cm is found at its mean position and it is moving in positive y-direction at t=1 s. the amplitude of the wave, the wavelength and the angular frequency of the wave are 0.1m,pi//4m and 4pi rad//s , respectively. The equation of the wave is

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The equation of a wave is y=(x,t)=0.05 sin [(pi)/(2)(10x-40t)-(pi)/(4)]m find: (a) the wavelength, the frequency and the wave velocity (b) the participle velocity and acceleration at x=0.5m and t = 0.05s .

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