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The width of one of the two slits in Young’s double slit experiment is double of the other slit. Assuming that the amplitude of the light coming from a slit is proportional to the
10
Oct
The width of one of the two slits in Young’s double slit experiment is double of the other slit. Assuming that the amplitude of the light coming from a slit is proportional to the The width of one of the two slits in Young's double slit experiment is double of the other slit. Assuming that [...]
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Tags: The width of one of the two slits in Young's double slit experiment is double of the other slit. Assuming that the amplitude of the light coming from a slit is proportional to the ,
The intensity of the light coming from one of the slits in Young’s double slit experiment is double the intensity from the other slit. Find the ratio of the maximum intensity to the
10
Oct
The intensity of the light coming from one of the slits in Young’s double slit experiment is double the intensity from the other slit. Find the ratio of the maximum intensity to the The intensity of the light coming from one of the slits in Young's double slit experiment is double the intensity from the [...]
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Tags: The intensity of the light coming from one of the slits in Young's double slit experiment is double the intensity from the other slit. Find the ratio of the maximum intensity to the ,
Calculate the density of water near the bottom of the ocean where the pressure is about 501 atm and density of water is 1025 kg/m ^3 approximately. Take bulk modulus of water ( in kg m^-3 ) as for water 2 x 10^9 N/M^2 and 1 atm is 1000 kg/m^3.
10
Oct
Calculate the density of water near the bottom of the ocean where the pressure is about 501 atm and density of water is 1025 kg/m ^3 approximately. Take bulk modulus of water ( in kg m^-3 ) as for water 2 x 10^9 N/M^2 and 1 atm is 1000 kg/m^3. A 0.05 m cube has [...]
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Tags: A 0.05 m cube has its upper face displaced by 0.2 cm by a tangential force of 8 N , Calculate the shearing strain , shearing stress and modulus of rigidity of the material of the cube. ,
The intensity on the screen at a certain point in a double-slit interference pattern is 25.0% of the maximum value. (a) What minimum phase difference ( in radians) between the sources
10
Oct
The intensity on the screen at a certain point in a double-slit interference pattern is 25.0% of the maximum value. (a) What minimum phase difference ( in radians) between the sources The intensity on the screen at a certain point in a double-slit interference pattern is 25.0% of the maximum value. (a) What minimum phase [...]
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Tags: The intensity on the screen at a certain point in a double-slit interference pattern is 25.0% of the maximum value. (a) What minimum phase difference ( in radians) between the sources ,
A metal cube of side 10 cm is subjected to a shearing stress of 10^6 N/m^2. calculate the modulus of rigidity ( in x 10^8 N/m^-2 ) if the top of the cube is displaced by 0.05 cm with respect to its bottom.
10
Oct
A metal cube of side 10 cm is subjected to a shearing stress of 10^6 N/m^2. calculate the modulus of rigidity ( in x 10^8 N/m^-2 ) if the top of the cube is displaced by 0.05 cm with respect to its bottom. A 0.05 m cube has its upper face displaced by 0.2 cm [...]
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Tags: A 0.05 m cube has its upper face displaced by 0.2 cm by a tangential force of 8 N , Calculate the shearing strain , shearing stress and modulus of rigidity of the material of the cube. ,
Two slits are separated by 0.320 mm. A beam of 500 nm light strikes the slits, producing an interference pattern. Determine the number of maxima observed in the angular range
10
Oct
Two slits are separated by 0.320 mm. A beam of 500 nm light strikes the slits, producing an interference pattern. Determine the number of maxima observed in the angular range producing an interference pattern. Determine the number of maxima observed in the angular range Two slits are separated by 0.320 mm. A beam of 500 [...]
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Tags: producing an interference pattern. Determine the number of maxima observed in the angular range , Two slits are separated by 0.320 mm. A beam of 500 nm light strikes the slits ,
Young’s double-slit experiment is performed with a 600 nm light and a distance of 2.00 m between the slits and the screen. The tenth interference minimum is observed 7.5 mm
10
Oct
Young’s double-slit experiment is performed with a 600 nm light and a distance of 2.00 m between the slits and the screen. The tenth interference minimum is observed 7.5 mm Young's double-slit experiment is performed with a 600 nm light and a distance of 2.00 m between the slits and the screen. The tenth interference [...]
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Tags: Young's double-slit experiment is performed with a 600 nm light and a distance of 2.00 m between the slits and the screen. The tenth interference minimum is observed 7.5 mm ,
Young’s interference experiment is performed with monochromatic light. The separation between the slits is 0.500 mm, and the interference pattern on a screen 3.30 mm from the center
10
Oct
Young’s interference experiment is performed with monochromatic light. The separation between the slits is 0.500 mm, and the interference pattern on a screen 3.30 mm from the center and the interference pattern on a screen 3.30 mm from the center Young's interference experiment is performed with monochromatic light. The separation between the slits is 0.500 [...]
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Tags: and the interference pattern on a screen 3.30 mm from the center , Young's interference experiment is performed with monochromatic light. The separation between the slits is 0.500 mm ,
In an interference arrangement similar to double-slit experiment, S1 and S2 are illuminated with coherent sources microwave source each of frequency 1 MHz. The sources are synchronized
10
Oct
In an interference arrangement similar to double-slit experiment, S1 and S2 are illuminated with coherent sources microwave source each of frequency 1 MHz. The sources are synchronized In an interference arrangement similar to double-slit experiment S1 and S2 are illuminated with coherent sources microwave source each of frequency 1 MHz. The sources are synchronized October [...]
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Tags: In an interference arrangement similar to double-slit experiment , S1 and S2 are illuminated with coherent sources microwave source each of frequency 1 MHz. The sources are synchronized ,
Two parallel and opposite forces, each of magnitude 4000 N, are applied tangentially to the upper and lower faces of a cubical metal block 25 cm on a side. Find the angle of shear and the displacement of the upper surface relative to the lower surface. The shear modulus for the metal is 80 GPa.
10
Oct
Two parallel and opposite forces, each of magnitude 4000 N, are applied tangentially to the upper and lower faces of a cubical metal block 25 cm on a side. Find the angle of shear and the displacement of the upper surface relative to the lower surface. The shear modulus for the metal is 80 GPa. [...]
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Tags: Consider a wire of length l , cross sectional area A and Young's modulus Y and match column I with column II: , each of magnitude 4000 N , Two parallel and opposite forces ,