MHT CET 2021 22th September Morning Shift | Wave Optics Question 52 | Physics

In Young's double slit experiment, the $$10^{\text {th }}$$ maximum of wavelength '$$\lambda_1$$' is at a distance of '$$Y_1$$' from the central maximum. When the wavelength of the source is changed to '$$\lambda_2$$', $$5^{th}$$ maximum is at a distance '$$Y_2$$' from the central maximum. The ratio $$\frac{Y_1}{Y_2}$$ is

$$\frac{2 \lambda_1}{\lambda_2}$$

$$\frac{\lambda_2}{2 \lambda_1}$$

$$\frac{2 \lambda_2}{\lambda_1}$$

$$\frac{\lambda_1}{2 \lambda_2}$$

MHT CET 2021 22th September Morning Shift

MCQ (Single Correct Answer)

-0

A single slit diffraction pattern is formed with white light. For what wavelength of light the $$3^{\text {rd }}$$ secondary maximum in diffraction pattern coincides with the $$2^{\text {nd }}$$ secondary maximum in the pattern of red light of wavelength 6000 $$\mathop A\limits^o $$ ?

4500 $$\mathop A\limits^o $$

3500 $$\mathop A\limits^o $$

4000 $$\mathop A\limits^o $$

5000 $$\mathop A\limits^o $$

MHT CET 2021 22th September Morning Shift

MCQ (Single Correct Answer)

-0

The width of central maximum of a diffraction pattern on a single slit does not depend upon

frequency of light used

width of the slit

distance between slit and source

wavelength of light used

MHT CET 2021 21th September Evening Shift

MCQ (Single Correct Answer)

-0

Two coherent sources of wavelength '$$\lambda$$' produce steady interference pattern. The path difference corresponding to 10$$^{th}$$ order maximum will be

9.5 $$\lambda$$

10.5 $$\lambda$$

9 $$\lambda$$

10 $$\lambda$$

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