Question

In: Physics

Two coherent wave sources 5 cm apart make ripples in a water tank, producing a Moire...

Two coherent wave sources 5 cm apart make ripples in a water tank, producing a Moire pattern. The wavelength of the waves is 3 cm. 1) Find the angle between the perpendicular bisector of the line joining the two sources and the direction of the 1st non-central maximum. 2) What is the direction of this 1st maximum if the two sources operate with opposite phases?. 3) How do the answers to 1) and 2) change if the wavelength is changed to 6 cm?

Solutions

Expert Solution


Related Solutions

You observe two point sources of light that are spaced 5 cm apart which are each...
You observe two point sources of light that are spaced 5 cm apart which are each emitting light of wavelength of 420 nm. If the diameter of your pupil is 2 mm, how distant can the objects be from your eye for you to just barely resolve them? A long, straight wire carries a steady current of 50 A. What is the magnetic field strength at a distance of 7 cm from the wire?
Adjacent antinodes of a standing wave on a string are 15.0 cm apart. A particle at an antinode...
Adjacent antinodes of a standing wave on a string are 15.0 cm apart. A particle at an antinode oscillates in simple harmonic motion with amplitude 0.850 cm and period 0.0750 s. The string lies along the +x-axis and is fixed at x=0. What is the amplitude of the two traveling waves that form this pattern? What is the speed of the two traveling waves that form this pattern? Find the maximum and minimum transverse speeds of a point at an antinode. What is the shortest distance...
A homemade capacitor is assembled by placing two 10-in. pie pans 5 cm apart and connecting...
A homemade capacitor is assembled by placing two 10-in. pie pans 5 cm apart and connecting them to the opposite terminals of a 9-V battery. A) Estimate the capacitance. B) Estimate the charge on each plate. C) Estimate the electric field halfway between the plates. D) Estimate the work done by the battery to charge the plates. E) Which of the above values change if a dielectric is inserted? Options: Capacitance. Charge. Electric field. Work done by the battery.
Two converging lenses with focal lengths of 40 cm and 20 cm are 10 cm apart....
Two converging lenses with focal lengths of 40 cm and 20 cm are 10 cm apart. A 3.0 cm -tall object is 15 cm in front of the 40 cm -focal-length lens. Calculate the image height.
Two sources emit electromagnetic waves that are coherent and in phase. To reach point P, the...
Two sources emit electromagnetic waves that are coherent and in phase. To reach point P, the waves from the first source travel 10 m, and the waves from the second source have travel 15 m. What is the maximum possible wavelength for the waves to have constructive interference at point P?
Consider two coherent monochromatic sources of light of wavelength (lambda) centered at the origin and located...
Consider two coherent monochromatic sources of light of wavelength (lambda) centered at the origin and located at (0, 0,-d) and (0,0,+d). Show that the locus of points, satisfying either the condition for constructive or destructive interference, form a family of hyperboloids of revolution (one for each value of m) with the foci located at the sources. Do this by deriving the equation for the hyperboloid of revolution in Cartesian coordinates (1pt) and locating the focus points (0.5pts). Additionally, what does...
Two converging lenses, each of focal length 15 cm, are placed 52 cm apart, and an...
Two converging lenses, each of focal length 15 cm, are placed 52 cm apart, and an object is placed 30 cm in front of the first lens (a) Where is the final image formed with respect to the second lense? 60.8 cm behind the second lense 60.8 cm in front of the second lense 47.1 cm in front of the second lense 47.1 cm behind the second lense (b) What is the magnification of the system? 0.5 –1 –3.1 2.1
Two converging lenses, each of focal length 14.9 cm, are placed 39.5 cm apart, and an...
Two converging lenses, each of focal length 14.9 cm, are placed 39.5 cm apart, and an object is placed 30.0 cm in front of the first lens. Where is the final image formed? The image is located  cm  ---Location--- in front of the first lens. in front of the second lens. behind the second lens. What is the magnification of the system? M =  ✕
Two converging lenses, each of focal length 14.9 cm, are placed 39.8 cm apart, and an...
Two converging lenses, each of focal length 14.9 cm, are placed 39.8 cm apart, and an object is placed 29.1 cm in front of the first. How far from the first lens is the final image formed? Answer in units of cm. What is the magnification of the system?
Two converging lenses, each of focal length 14.9 cm, are placed 39.3 cm apart, and an...
Two converging lenses, each of focal length 14.9 cm, are placed 39.3 cm apart, and an object is placed 30.0 cm in front of the first lens. Where is the final image formed? The image is located cm  ---Location--- behind the second lens. in front of the first lens. in front of the second lens. What is the magnification of the system? M =  ?
ADVERTISEMENT
ADVERTISEMENT
ADVERTISEMENT