when do we have double slit maxima? when do we have double slit minimal?

In a double-slit experiment, light with a wavelength λ passes through a double-slit and forms an...

In a double-slit experiment, light with a wavelength λ passes through a double-slit and forms an interference pattern on the screen at a distance L from the slits. What statement is true for the resulting interference pattern if the frequency of the light increases? The distance between maxima increases. Not enough information given. The distance between maxima stays the same. The distance between maxima decreases.

In a double-slit experiment, if the slit separation is increased, how will the interference pattern on...

In a double-slit experiment, if the slit separation is increased, how will the interference pattern on the screen change? If instead, you increase the distance between the slit and the screen, how will the interference pattern change? (i.e. the maxima and minima stay in the same position, get further apart, get closer together, etc.)

(a) In Young’s double-slit experiment, why do we use monochromatic light? (b) If white light is...

(a) In Young’s double-slit experiment, why do we use monochromatic light? (b) If white light is used, how would the pattern change?

You are doing a double slit experiment with light. One slit is wider than the other,...

You are doing a double slit experiment with light. One slit is wider than the other, so one of the waves is stronger. There is never exact cancellation, or complete destructive interference. On a screen far away you observe a pattern of maxima and minima, and the intensity of the light in a maximum is 4 times as large as that in a minimum. What is the ratio of the widths of the two slits?

With a monochromatic light of wavelength ?? = 532 nm A double-slit interference pattern is produced...

With a monochromatic light of wavelength ?? = 532 nm A double-slit interference pattern is produced on a screen as shown in the picture. The slit separation ?? is 0.10 mm, and the slit–screen separation ?? is 50 cm. Assume that the angle θ (from the slit center to the maxima and minima) small enough to permit use of the approximations sin θ ≈ tan θ ≈ θ, in which θ is expressed in radian measure. a. A strip of...

If we block one of the two slits of a double slit experiment, the intensity coming...

If we block one of the two slits of a double slit experiment, the intensity coming through the other slit is 1.0 mW.   If the slit spacing, d, is 147 µm, and the wavelength is 700 nm, what is the intensity at 14 degrees if both slits are uncovered? (Note: You may assume that the slit width a≪λ.) Answer is 2.66 mW....... please show how we got this. Thank you

Can you explain the relative drop in intensity for higher order maxima? Consider the singlet-slit diffraction...

Can you explain the relative drop in intensity for higher order maxima? Consider the singlet-slit diffraction pattern created by each slit. How do these single slit patterns affect the overall interference pattern?

When both diffraction and interference are taken into account in the double-slit experiment, discuss the effect...

When both diffraction and interference are taken into account in the double-slit experiment, discuss the effect of decreasing (a) the wavelength, (b) the slit separation, (c) the slit width

A double-slit experiment is performed with sodium light (λ = 589.0 nm). The slits are separated...

A double-slit experiment is performed with sodium light (λ = 589.0 nm). The slits are separated by 1.14 mm, and the screen is 2.310 m from the slits. Find the separation between adjacent maxima on the screen.

a) Electrons with an energy of 0.842 eV are incident on a double slit in which...

a) Electrons with an energy of 0.842 eV are incident on a double slit in which the two slits are separated by 40.0 nm. What is the speed of these electrons? _______ m/s b) Electrons with an energy of 0.842 eV are incident on a double slit in which the two slits are separated by 40.0 nm. What is the de Broglie wavelength (in nanometers!) of these electrons? _______ nm c) Electrons with an energy of 0.842 eV are incident...