- #1
fobbz
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I have attached the problem as the image is needed for the question.
a) Basically, from what I understand the wave is being split, thus each chamber receives the total number of wavelengths/2. The chambers, however are vacuums, so the number of wavelengths passing in doesn't change right?
Looking at my formulae for interferometers for destructive and constructive interference I cannot see one that would contribute to solving this part of the problem?
my formulae: L=m[itex]\lambda[/itex]/2 constructive interference, L=(m+.5)[itex]\lambda[/itex]/2 for destructive interference.
b) I need a to find this part I believe.
c) Need b.
a) Basically, from what I understand the wave is being split, thus each chamber receives the total number of wavelengths/2. The chambers, however are vacuums, so the number of wavelengths passing in doesn't change right?
Looking at my formulae for interferometers for destructive and constructive interference I cannot see one that would contribute to solving this part of the problem?
my formulae: L=m[itex]\lambda[/itex]/2 constructive interference, L=(m+.5)[itex]\lambda[/itex]/2 for destructive interference.
b) I need a to find this part I believe.
c) Need b.