Coherent microwave light with a frequency f = 2.0 x 10^10 Hz is incident on a d = 5.0 cm double slit barrier, producing an interference pattern of a number of maxima and minima. A detector is free to swing around the full 180 degrees in order to find the presence of interferenece maxima and minima. How many different minima will this detector detect, as it is allowed to swing around the full 180 degrees? (Include minima on both sides of the centerline in your count).
Coherent microwave light with a frequency f = 2.0 x 10^10 Hz is incident on a...
can someone show me how they get the answer of 7 maxima?
Coherent microwave light with a wavelength λ = 1 5cm is incident on a d= 5.0 cm. double slit barrier, producing an interference pattern of a number of maxima and minima. A detector is free to swing around the full 180° in order to find the presence of interference maxima and minima. How many different maxima will this detector detect, as it is allowed to swing around the...
Coherent light of wavelength 650nm is normally incident (in the air) upon a double-slit apparatus of separation distance 2x10-4m & produces an interference pattern on a screen a perpendicular distance of 4m away. a) What angle (in degrees) does the 5thorder (m = 5) bright fringe make (relative to the central maximum)? b) How wide is the central maximum on the screen (i.e., how far apart (in cm) are the lowest order minima)?
6) (10 pts) Coherent light of wavelength 650nm is normally incident (in air) upon a double-slit apparatus of separation distance 2x104m & produces an interference pattern on a screen a perpendicular distance of 4m away. a) (5 pts) What angle (in degrees) does the 5th order (m= 5) bright fringe make (relative to the central maximum)? b) (5 pts) How wide is the central maximum on the screen (i.e., how far apart (in cm) are the lowest order minima)?