Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions)

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Two coherent monochromatic point sources S1 and S2 of wavelength lemda = 600 nm are placed symmetrically on either side of the centre of the circle as shown. The sources are
11
Oct
Two coherent monochromatic point sources S1 and S2 of wavelength lemda = 600 nm are placed symmetrically on either side of the centre of the circle as shown. The sources are Two coherent monochromatic point sources S1 and S2 of wavelength lemda = 600 nm are placed symmetrically on either side of the centre of [...]
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Tags: Two coherent monochromatic point sources S1 and S2 of wavelength lemda = 600 nm are placed symmetrically on either side of the centre of the circle as shown. The sources are ,
Young’s double slit experiment is carried out by using green, red and blue light, one color at a time. The fringe widths recorded are beta G, beta r and beta b, respectively. Then,-duplicate-4
11
Oct
Young’s double slit experiment is carried out by using green, red and blue light, one color at a time. The fringe widths recorded are beta G, beta r and beta b, respectively. Then,-duplicate-4 beta r and beta b one color at a time. The fringe widths recorded are beta G red and blue light respectively [...]
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Tags: beta r and beta b , one color at a time. The fringe widths recorded are beta G , red and blue light , respectively then. , Young's double slit experiment is carried out by using green ,
A light source, which emits two wavelengths lemda 1 = 400 nm and lemda 2 = 600 nm, is used in a Young’s double slit experiment. If recorded fringe widths for lemda 1 and lemda 2
11
Oct
A light source, which emits two wavelengths lemda 1 = 400 nm and lemda 2 = 600 nm, is used in a Young’s double slit experiment. If recorded fringe widths for lemda 1 and lemda 2 A light source is used in a Young's double slit experiment. If recorded fringe widths for lemda 1 and [...]
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Tags: A light source , is used in a Young's double slit experiment. If recorded fringe widths for lemda 1 and lemda 2 , which emits two wavelengths lemda 1 = 400 nm and lemda 2 = 600 nm ,
In Young’s double-slit experiment using a monochromatic light of wavelength lemda, the path difference ( in terms of an integer n) corresponding to any point having half the peak
11
Oct
In Young’s double-slit experiment using a monochromatic light of wavelength lemda, the path difference ( in terms of an integer n) corresponding to any point having half the peak In Young's double-slit experiment using a monochromatic light of wavelength lemda the path difference ( in terms of an integer n) corresponding to any point having [...]
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Tags: In Young's double-slit experiment using a monochromatic light of wavelength lemda , the path difference ( in terms of an integer n) corresponding to any point having half the peak ,
Young’s double slit experiment is carried out by using green, red and blue light, one color at a time. The fringe widths recorded are beta G, beta r and beta b, respectively. Then,
11
Oct
Young’s double slit experiment is carried out by using green, red and blue light, one color at a time. The fringe widths recorded are beta G, beta r and beta b, respectively. Then, beta r and beta b one color at a time. The fringe widths recorded are beta G red and blue light respectively [...]
Posted in: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
Tags: beta r and beta b , one color at a time. The fringe widths recorded are beta G , red and blue light , respectively then. , Young's double slit experiment is carried out by using green ,
A light ray traveling in glass medium is incident on glass-air interface at an angle of incidence theta. The reflected (R) and transmitted (T) intensities, both as function of theta, are plotted.
11
Oct
A light ray traveling in glass medium is incident on glass-air interface at an angle of incidence theta. The reflected (R) and transmitted (T) intensities, both as function of theta, are plotted. A light ray traveling in glass medium is incident on glass-air interface at an angle of incidence theta. The reflected (R) and transmitted [...]
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Tags: A light ray traveling in glass medium is incident on glass-air interface at an angle of incidence theta. The reflected (R) and transmitted (T) intensities , are plotted. , both as function of theta ,
A mixture of lights, consisting of wavelength 590 nm and an unknown wavelength illuminates Young’s double slit and gives rise to two overlapping interference patterns on
11
Oct
A mixture of lights, consisting of wavelength 590 nm and an unknown wavelength illuminates Young’s double slit and gives rise to two overlapping interference patterns on A mixture of lights consisting of wavelength 590 nm and an unknown wavelength illuminates Young's double slit and gives rise to two overlapping interference patterns on October 11, 2020 [...]
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Tags: A mixture of lights , consisting of wavelength 590 nm and an unknown wavelength illuminates Young's double slit and gives rise to two overlapping interference patterns on ,
Figure shows a modified Fresnel biprism experiment with monochromatic source of wavelength 500 nm. The refracting angle of glass prism is 2. Find the fringe width.
11
Oct
Figure shows a modified Fresnel biprism experiment with monochromatic source of wavelength 500 nm. The refracting angle of glass prism is 2. Find the fringe width. Figure shows a modified Fresnel biprism experiment with monochromatic source of wavelength 500 nm. The refracting angle of glass prism is 2. Find the fringe width. October 11, 2020 [...]
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Tags: Figure shows a modified Fresnel biprism experiment with monochromatic source of wavelength 500 nm. The refracting angle of glass prism is 2. Find the fringe width. ,
Consider two cases in Young’s double-slit experiment. In case (a): the amplitude of source S1 is three times the amplitude of the source S2. These sources are covered by perfectly
11
Oct
Consider two cases in Young’s double-slit experiment. In case (a): the amplitude of source S1 is three times the amplitude of the source S2. These sources are covered by perfectly Consider two cases in Young's double-slit experiment. In case (a): the amplitude of source S1 is three times the amplitude of the source S2. These [...]
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Tags: Consider two cases in Young's double-slit experiment. In case (a): the amplitude of source S1 is three times the amplitude of the source S2. These sources are covered by perfectly ,
A lens (mu = 1.5) is coated with a thin film of refractive index 1.2 in order to reduce the reflection from its surface at lemda = 4800 A. Find the minimum thickness of the film (in mu m) which
11
Oct
A lens (mu = 1.5) is coated with a thin film of refractive index 1.2 in order to reduce the reflection from its surface at lemda = 4800 A. Find the minimum thickness of the film (in mu m) which A lens (mu = 1.5) is coated with a thin film of refractive index 1.2 [...]
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Tags: A lens (mu = 1.5) is coated with a thin film of refractive index 1.2 in order to reduce the reflection from its surface at lemda = 4800 A. Find the minimum thickness of the film (in mu m) which ,