A simple harmonic progressive wave is represented by, Y = 0.5 sin (340 t х). All %D | 5 quantities are in S.I. system. Calculate : (1). Amplitude (2) Frequency, (3) Wavelength and (4) Velocity. What will be phase difference of particles separated by distance = 5 m ?
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- T14d please help me with my reviewer, I can’t get the value for the step 2, also kindly give me a detail solution so that I can’t I understand it thank youWAVE EQUATIONS = I cos? 0 Avisible v = f1 = w/k w = 2nf = 2n/T, k = 21/A = 390 – 700 nm d sin Opright = m1 (т + 0.5)1 Ipoiarized d sin Odark = B = 10 log a sin Odark = m. I, = 1.00 x 10-12 W/m² 2t %3D тлn OR (т + 0.5)Л. Vstring = /Fr/µ H = m/e fbeat = If2 – fil n1 sin 01 = n2 sin 02 Omin = 1.22 1/D An = 1/n v±v. f v 7 vs y = A sin(kx – wt + 4) c = 3.00 x 108 m/s Vn = c/n, I « (Атpltd)2 fshifted %3| Area Vsound - 343 m/s Show work (present solutions). 1. A 100 Watt incandescent bulb is about 5.0% efficient at converting electrical energy into radiant energy (i.e. it produces 5.0 W of light energy). Assume the bulb projects light equally in all directions and produces light that is randomly Unpolarized light source 8.0 m polarized (in other words the source is isotropic and very small distance between filters (not to scale) unpolarized). A pair of 30 polarizing filters is used to Observer examine the light at a First filter has electric position 8.0 meters away field transmission axis…In the given wave function below, what is the position of the particle at x = 0.250 m at t = 0.300 s? y(x, t) = (0.500m) cos 27 O y = 0 and the particle is on its way downward. O y = 0 and the particle is on its way upward. O y = +0.500 m O y = -0.500 m. X 0.500m t 0.400.s
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- & Snipping Tool O X File Edit Tools Help New Mode Delay - For Å = 9.5å – 83+ 6k and B = –7î + 7.1 – 6k then what is the z component of Á x B? Answer: 6:39 PM O Type here to search 日 O G ENG amazon 13°C 2021-10-17 %2:A standing wave us given by y(x,t) = 10cos(5(pi)t)*sin((2/3)(pi)x) find two waves that could be superimposed to generate this standing wave.Current Attempt in Progress Consider the freight train in Figure below. Suppose 21 boxcars pass by in a time of 15.8 s and each has a length of 12.0 m.(a) What is the frequency at which each boxcar passes? (b) What is the speed of the train? The time. for one car to pass is the period T Velocity = v Wavelength = - (a) Number i Units (b) Number Units 96 6. t. b m 00