Class 12 Physics Wave Optics Young's Double Slit Experiment (YDSE)

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Write down the formula for the distance between two consecutive bright fringes or two consecutive dark fringes in Young's Double Slit Experiment.

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(N/A) In Young's Double Slit Experiment,the distance between two consecutive bright fringes or two consecutive dark fringes is known as the fringe width,denoted by $\beta$.
The formula for fringe width is given by:
$\beta = \frac{\lambda D}{d}$
Where:
- $\lambda$ is the wavelength of the monochromatic light used.
- $D$ is the distance between the slits and the screen.
- $d$ is the distance between the two slits.

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Young's Double Slit Experiment (YDSE)

In Young's double slit interference experiment,the slit separation is made $3$ fold. The fringe width becomes

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In Young's double-slit experiment,one of the slits is painted such that its intensity is half that of the other slit. Then:

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In a Young's experiment,when $n$ coherent sources of equal intensity $I_0$ are used,the resultant intensity is $I_1$. When $n$ incoherent sources of equal intensity $I_0$ are used,the resultant intensity is $I_2$. What are the values of $I_1$ and $I_2$?

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Two coherent sources $P$ and $Q$ produce interference at point $A$ on the screen,where a dark band is formed between the $4^{\text{th}}$ bright band and the $5^{\text{th}}$ bright band. The wavelength of the light used is $6000 \text{ Å}$. The path difference between $PA$ and $QA$ is:

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In a Young's double slit experiment,the fringe width will remain the same if ($D =$ distance between screen and plane of slits,$d =$ separation between two slits,and $\lambda =$ wavelength of light used).

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Write down the formula for the distance between two consecutive bright fringes or two consecutive dark fringes in Young's Double Slit Experiment.

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