Light of a wavelength 544 nm illuminates two slits separated by 0.3 mm. At angle theta one would find the phase difference between the waves from two slits to be 2 radians. Find sin theta. State your answer in 10^-4 and round it to the nearest tenth.
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- In the figure, two radio-frequency point sources S1 and S2, separated by distance d = 1.6 m, are radiating in phase with A = 0.4 m. A detector moves in a large circular path around the two sources in a plane containing them. How many maxima does it detect? Number x S₁ S2 UnitsLight of wavelength 0.616 um passed through two slits separated by distance d=2.61 µm and creates an interference pattern that can be observed on a screen placed distance 0.86 m away. The bright fringes in the pattern are not equidistant. What is the distance between fırst and third bright band observed on the screen? Provide your answer in centimeters, with a precision one place after decimal.A red laser of wavelength 632.8x10-9 m is directed horizontally towards a diffraction grating. The separation between slits on the grating is 2.54x10-5 m. What angle is a 2nd order bright spot is seen at? Use the following equation to calculate the angle. mλ = d sin 0
- The fringe of order (1.0000x10^0) is observed at an angle of (7.3000x10^0)° when light of wavelength (2.62x10^0) nm falls on two narrow slits. How far apart are the slits in micrometers? Give your answer to 3 sf. Note: Your answer is assumed to be reduced to the highest power possible. Your Answer: x10 AnswerWhich of these is the theoretical maximum number of bright fringes visible in the diffraction pattern when green (I = 500 nm) light shines through double slits separated by 2.1 * 10^-6m?Light waves, for which the electric field is given by Ey(x,t) =Emaxin|(2x107m-1)x-wt], pass through a slit and produce the first dark bands at ‡30• from the center of the diffraction pattern. What is the frequency of this light? How wide is the slit? At which positive angle will the next dark band occur?
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