In Young's experiment, the ratio of intensity at the maxima and minima in an interference pattern is 36 : 9. What will be the ratio of the intersities of two interfering waves.
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- Two waves, D1(x,t) = A sin (kx - wt + 5n/6) and D2 = A sin (kx - wt + n) are %3D superimposed. The two waves will interfere The amplitude of the superposed wave is times A (where A is the amplitude of the original wave)the thickness of human hair is to be measured using the interference pattern produced by an air wedge. red light with a wavelength of 638nm is used on an air wedge that is 25.0cm long. If 10 bright fringes are counted across 1.06cm in the air wedge, what is the thickness of the hairA laser beam is incident on two slits with a separation of 0.205 mm, and a screen is placed 4.95 m from the slits. If the bright interference fringes on the screen are separated by 1.56 cm, what is the wavelength of the laser light? in nanometers.
- Two waves travelling in the same direction are given by: y1 = 0.2 sin(2rx-20t+p) and y2 = 0.2 sin(2Ttx-20t), where x and y are in meters and t is in seconds. If the %3D two waves start at the same moment, then the path difference, Ax, corresponding to a fully destructive interference is:If y(x,)= (8.3mm) sin [kx+ (o00 nd/s)t + @ disabes a wave teaveling along how much tioe does ang ginen polnt on the steing take to move between dispacements. 生一 %3D a steing, = + 2,7mm And =-2. 7 mm ?A point on the third nodal line from the center of an interference pattern is 40.1 cm from one source and 31.8 cm from the other. The sources are 10.4 cm apart and vibrate in phase at 14.0 Hz. Calculate the wavelength of the waves, in cm.
- Two identical point sources are 4.5 cm apart, in phase and vibrating at a frequencyof 10 Hz. They produce an interference pattern. At the point of the first nodal line 4.5 cmfrom one source and 5.0 cm from the other.a) Determine the wavelength. b) Determine the speed of the waves.An ideal double slit interference experiment is performed with light of wavelength 640 nm. A bright spot is observed at the center of the resulting pattern as expected. For the 2nd bright spot away from the center, it is known that light passing through the more distant slit travels nm further than the light traveling from the closer slit. (Enter just the number - 800 don't include "nm")Superposition of waves shows interference pattern. Monochromatic light (light wave of a particular frequency) falls on double-slit 0.04-mm apart produces the 4th-order bright fringe at an 9.4o angle. Find the wavelength of the light used.(A) Wavelength (B) If the distance of the viewing screen is 1.2-m away from the slit, how far this fringe will form on the screen from its center?