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In Young’s double-slit experiment, the two slits act as coherent sources of equal amplitude A and of wavelength lemda. In another experiment with the same setup, the two slits are sources
11
Oct
In Young’s double-slit experiment, the two slits act as coherent sources of equal amplitude A and of wavelength lemda. In another experiment with the same setup, the two slits are sources In Young's double slit experiment the two slits act as coherent sources of equal amplitude A and of wavelength lemda. In another experiment with [...]
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Tags: In Young's double slit experiment , the two slits act as coherent sources of equal amplitude A and of wavelength lemda. In another experiment with the same setup , the two slits are sources ,
A monochromatic beam of light of wavelength 5000 A is used in Young’s double slit experiment. If one of the slits is covered by a transparent sheet of thickness 1.4 * 10^-5 m, having refractive
11
Oct
A monochromatic beam of light of wavelength 5000 A is used in Young’s double slit experiment. If one of the slits is covered by a transparent sheet of thickness 1.4 * 10^-5 m, having refractive A monochromatic beam of light of wavelength 5000 A is used in Young's double slit experiment. If one of the [...]
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Tags: A monochromatic beam of light of wavelength 5000 A is used in Young's double slit experiment. If one of the slits is covered by a transparent sheet of thickness 1.4 * 10^-5 m , having refractive ,
In YDSE, find the thickness ( in mu m ) of a glass slab ( mu = 1.5) which should be placed before the upper slit S1 so that the central maximum now lies at a point where 5th bright
11
Oct
In YDSE, find the thickness ( in mu m ) of a glass slab ( mu = 1.5) which should be placed before the upper slit S1 so that the central maximum now lies at a point where 5th bright find the thickness ( in mu m ) of a glass slab ( mu = [...]
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Tags: find the thickness ( in mu m ) of a glass slab ( mu = 1.5) which should be placed before the upper slit S1 so that the central maximum now lies at a point where 5th bright , In YDSE ,
A glass of refractive index 1.5 is coated with a thin layer of thickness of t of refractive index 1.8. Light of wavelength lemda travelling in air is incident normally on the layer. It is partly
11
Oct
A glass of refractive index 1.5 is coated with a thin layer of thickness of t of refractive index 1.8. Light of wavelength lemda travelling in air is incident normally on the layer. It is partly A glass of refractive index 1.5 is coated with a thin layer of thickness of t of refractive index [...]
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Tags: A glass of refractive index 1.5 is coated with a thin layer of thickness of t of refractive index 1.8. Light of wavelength lemda travelling in air is incident normally on the layer. It is partly ,
A monochromatic light of lemda = 500 A is incident on two identical slits separated by a distance of 5 * 10^-4 m. The interference pattern is seen on a screen placed at a distance of 1 m
11
Oct
A monochromatic light of lemda = 500 A is incident on two identical slits separated by a distance of 5 * 10^-4 m. The interference pattern is seen on a screen placed at a distance of 1 m A monochromatic light of lemda = 500 A is incident on two identical slits separated by a [...]
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Tags: A monochromatic light of lemda = 500 A is incident on two identical slits separated by a distance of 5 * 10^-4 m. The interference pattern is seen on a screen placed at a distance of 1 m ,
In Young’s double slit experiment lemda = 500 nm, d = 1mm, and D = 4 m. The minimum distance from the central maximum for which the intensity is half of the maximum intensity
11
Oct
In Young’s double slit experiment lemda = 500 nm, d = 1mm, and D = 4 m. The minimum distance from the central maximum for which the intensity is half of the maximum intensity and D = 4 m. The minimum distance from the central maximum for which the intensity is half of the maximum [...]
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Tags: and D = 4 m. The minimum distance from the central maximum for which the intensity is half of the maximum intensity , d = 1mm , In Young's double slit experiment lemda = 500 nm ,
Figure shows a set up to perform Young’s double slit experiment. A monochromatic source of light is placed at S, S1 and S2 and act as coherent sources and interference pattern is
11
Oct
Figure shows a set up to perform Young’s double slit experiment. A monochromatic source of light is placed at S, S1 and S2 and act as coherent sources and interference pattern is Figure shows a set up to perform Young's double slit experiment. A monochromatic source of light is placed at S S1 and S2 [...]
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Tags: Figure shows a set up to perform Young's double slit experiment. A monochromatic source of light is placed at S , S1 and S2 and act as coherent sources and interference pattern is ,
In the figures shown, Z1 and Z2 are two screens. Lines PO is the bisector line of S1S2 and S3S4. When Z1 is removed, resultant intensity at O due to slits S1 and S2 is I. Now, Z1 is
11
Oct
In the figures shown, Z1 and Z2 are two screens. Lines PO is the bisector line of S1S2 and S3S4. When Z1 is removed, resultant intensity at O due to slits S1 and S2 is I. Now, Z1 is In the figures shown resultant intensity at O due to slits S1 and S2 is I. [...]
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Tags: In the figures shown , resultant intensity at O due to slits S1 and S2 is I. Now , Z1 and Z2 are two screens. Lines PO is the bisector line of S1S2 and S3S4. When Z1 is removed , Z1 is ,
Two waves from coherent sources meet at a point in a path difference of delta x. Both the waves have same intensities. Match the following two columns.
11
Oct
Two waves from coherent sources meet at a point in a path difference of delta x. Both the waves have same intensities. Match the following two columns. Two waves from coherent sources meet at a point in a path difference of delta x. Both the waves have same intensities. Match the following two columns. October [...]
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Tags: Two waves from coherent sources meet at a point in a path difference of delta x. Both the waves have same intensities. Match the following two columns. ,
A double slit interference pattern is produced on a screen as shown in the figure, using monochromatic light of wavelength 500 nm. Point P is the location of the central bright fringe,
11
Oct
A double slit interference pattern is produced on a screen as shown in the figure, using monochromatic light of wavelength 500 nm. Point P is the location of the central bright fringe, A double slit interference pattern is produced on a screen as shown in the figure using monochromatic light of wavelength 500 nm. Point [...]
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Tags: A double slit interference pattern is produced on a screen as shown in the figure , using monochromatic light of wavelength 500 nm. Point P is the location of the central bright fringe ,