Cengage JEE Mains Physics by B.M Sharma
Calculate the wavelength of light used in an interference experiment from the following data : Fringe width = 0.03 cm. Distance between the slits and eyepiece through which the interference pattern is observed is 1m. Distance between the images of the virtual source when a convex lens of focal length 16 cm is used at a distance of 80 cm from the eyepiece is 0.8 cm.
15
Nov
Calculate the wavelength of light used in an interference experiment from the following data : Fringe width = 0.03 cm. Distance between the slits and eyepiece through which the interference pattern is observed is 1m. Distance between the images of the virtual source when a convex lens of focal length 16 cm is used at [...]
In Young’s double-slit experiment using monochromatic light, the light pattern shifts by a certain distance on the screen when a mica sheet of refractive index μ and thickness t microns is introduced in the path of one of the interfering waves. The mica sheet is then removed and the distance between the plane of slits and the screen is doubled. It is found that the distance between successive maxima (or minima) now is the same as the observed fringe shift upon the introduction of the mica sheet. Calculate the wavelength of light?
15
Nov
In Young’s double-slit experiment using monochromatic light, the light pattern shifts by a certain distance on the screen when a mica sheet of refractive index μ and thickness t microns is introduced in the path of one of the interfering waves. The mica sheet is then removed and the distance between the plane of slits [...]
In Young’s double-slit experiment, the wavelength of light was changed from 7000Å to 3500 Å. While doubling the separation between the slits, which of the following is not true for this experiment?
15
Nov
In Young’s double-slit experiment, the wavelength of light was changed from 7000Å to 3500 Å. While doubling the separation between the slits, which of the following is not true for this experiment? In Young's double slit experiment the wavelength of light was changed from 7000Å to 3500 Å. While doubling the separation between the slits [...]
A light of wavelength 6000Å shines on two narrow slits separated by a distance 1.0 mm and illuminates a screen at a distance 1.5 m away. When one slit is covered by a thin glass plate of refractive index 1.8 and other slit by a thin glass plate of refractive index μ, the central maxima shifts by 0.1 rad. Both plates have the same thickness of 0.5 mm. The value of refractive index μ of the glass is
15
Nov
A light of wavelength 6000Å shines on two narrow slits separated by a distance 1.0 mm and illuminates a screen at a distance 1.5 m away. When one slit is covered by a thin glass plate of refractive index 1.8 and other slit by a thin glass plate of refractive index μ, the central maxima [...]
In Young’s double-slit experiment, the slit separation is 0.5 mm and the screen is 0.5 m away from the slit. For a monochromatic light of wavelength 500 nm, the distance of 3rd maxima from the 2nd minima on the other side of central maxima is
15
Nov
In Young’s double-slit experiment, the slit separation is 0.5 mm and the screen is 0.5 m away from the slit. For a monochromatic light of wavelength 500 nm, the distance of 3rd maxima from the 2nd minima on the other side of central maxima is In Young's double slit experiment the distance of 3rd maxima [...]
A double-slit experiment is immersed in a liquid of refractive index 1.33. It has slit separation of 1 mm and distance between the plane of slits and screen is 1.33 m. The slits are illuminated by a parallel bam of light whose wavelength in air is 6830Å. Then the fringe width is
15
Nov
A double-slit experiment is immersed in a liquid of refractive index 1.33. It has slit separation of 1 mm and distance between the plane of slits and screen is 1.33 m. The slits are illuminated by a parallel bam of light whose wavelength in air is 6830Å. Then the fringe width is What happens to [...]
In YDSE, light of wavelength λ=5000Å is used, which emerges in phase from two slits distance d = 3 × 10^−7m apart. A transparent sheet of thickness t = 1.5 × 10^−7m, refractive index n = 1.17, is placed over one of the slits. Where does the central maxima of the interference now appear from the center of the screen? (Find the value of y?)
15
Nov
In YDSE, light of wavelength λ=5000Å is used, which emerges in phase from two slits distance d = 3 × 10^−7m apart. A transparent sheet of thickness t = 1.5 × 10^−7m, refractive index n = 1.17, is placed over one of the slits. Where does the central maxima of the interference now appear from [...]
Tags:
In YDSE ,
is placed over one of the slits. Where does the central maxima of the interference now appear from the center of the screen? (Find the value of y?) ,
light of wavelength λ=5000Å is used ,
refractive index n = 1.17 ,
which emerges in phase from two slits distance d = 3 × 10^−7m apart. A transparent sheet of thickness t = 1.5 × 10^−7m ,
Two point sources separated by 2.0 m are radiating in phase with λ=0.50m. A detector moves in a circular path around the two sources in a plane containing them. How many maxima are detected?
15
Nov
Two point sources separated by 2.0 m are radiating in phase with λ=0.50m. A detector moves in a circular path around the two sources in a plane containing them. How many maxima are detected? Two point sources separated by 2.0 m are radiating in phase with λ=0.50m. A detector moves in a circular path around [...]
In young’s double-slit experiment the intensity of light at a point on the screen where the path difference is λ is I. The intensity of light at a point where the path difference becomes 3/ λ is
15
Nov
In young’s double-slit experiment the intensity of light at a point on the screen where the path difference is λ is I. The intensity of light at a point where the path difference becomes 3/ λ is In young's double-slit experiment the intensity of light at a point on the screen where the path difference [...]
A double-slit arrangement produces interference fringes for sodium light (λ = 589 nm) that have an angular separation of 3.50×0^−3 rad. For what wavelength would the angular separation be 10% greater?
15
Nov
A double-slit arrangement produces interference fringes for sodium light (λ = 589 nm) that have an angular separation of 3.50×0^−3 rad. For what wavelength would the angular separation be 10% greater? A double-slit arrangement produces interference fringes for sodium light (λ = 589 nm) that have an angular separation of 3.50×0^−3 rad. For what wavelength [...]