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Chapter 5: Q7DQ (page 1180)

Could the Young two-slit interference experiment be performed with gamma rays? If not, why not? If so, discuss differences in the experimental design compared to the experiment with visible light.

Short Answer

Expert verified

Due to the unavailability of the monochromatic source of gamma rays, it is not yet possible to perform the experiment. But theoretically, it is possible.

Step by step solution

01

Interference of light

The necessary and essential condition for the light waves to interfere is that the light waves should be coherent and monochromatic. If the light waves are not monochromatic, then instead of dark and bright fringes we will get cultured fringes.

02

Determine whether it is possible to perform a two-slit interference experiment with gamma rays or not.

Due to the unavailability of a monochromatic source of gamma-ray, it is very difficult to perform Young’s two-slit interference experiment with gamma-ray. The experiment can be performed theoretically. But the wavelength of gamma rays is very small. As a result, the fringe width of the pattern will be too small to be observed.

Hence, Young’s two-slit interference experiment can be performed with gamma rays, theoretically but is very difficult to perform practically.

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Most popular questions from this chapter

An interference pattern is produced by eight equally spaced narrow slits. The caption for Fig. 36.14 claims that minima occur for f =3π/4, π/4, 3π/2 and7π/4. Draw the phasor diagram for each of these four cases, and explain why each diagram proves that there is in fact a minimum. In each case, for which pairs of slits are there totally destructive interference?

A concave mirror has a radius of curvature of 34.0cm. (a) What is its focal length? (b) If the mirror is immersed in water (refractive index 1.33), what is its focal length?

A hologram is made using 600-nm light and then viewed by using white light from an incandescent bulb. What will be seen? Explain.

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Why can we readily observe diffraction effects for sound waves and water waves, but not for light? Is this because light travels so much faster than these other waves? Explain.
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