
Difference in the interference pattern of red and blue light. Red light has a longer wavelength than blue light, so the fringes are more spaced out

Light rays of wavelength λ incident on two slits a distance s apart interferes and form bright fringes on a screen placed a distance D away from the slits
Double-Slit Equation

Dependence of the interference pattern on the separation between the slits. The further apart the slits, the closer together the bright fringes
In a double-slit experiment, two slits are placed a distance of 0.40 mm apart and a screen is located 0.50 m away from the slits.
Coherent electromagnetic waves incident on the slits produce an interference pattern on the screen. The separation between dark fringes is 0.50 cm.
Determine the wavelength and state the type of electromagnetic waves used in the experiment.
Step 1: Write down the known quantities
Note that you must convert all lengths into metres (m)
Step 2: Write down the double-slit equation
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Step 3: Rearrange the above equation to calculate the wavelength λ
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Step 4: Substitute the numbers into the above equation
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λ = 4.0 × 10–6 m = 4.0 μm
This corresponds to the infrared area of the electromagnetic spectrum
Remember that the separation between dark fringes is exactly the same as the separation between bright fringes. Whether a question gives you or asks about the separation between dark fringes instead of bright ones it makes no difference.
Some tricky questions might give you the separation between a bright and a dark fringe. This is equal to half the value of s!
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