Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions)
Speed of light is
12
Sep
Speed of light is Speed of light is September 12, 2020 Category: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
The phase of light wave at c, d, e and f are phiC, phiA, phiC and PhiF respectively. It is given that phiC is not equal to phiF.
12
Sep
The phase of light wave at c, d, e and f are phiC, phiA, phiC and PhiF respectively. It is given that phiC is not equal to phiF. D e and f are phiC phiA phiC and PhiF respectively. It is given that phiC is not equal to phiF. The phase of light wave at [...]
A radionuclide with disintegration constant lemda is produced in a reactor at a constant rate alpha (= 2 lemda) nuclei per second. At t = 0, there are no nuclei present in the reactor.
12
Sep
A radionuclide with disintegration constant lemda is produced in a reactor at a constant rate alpha (= 2 lemda) nuclei per second. At t = 0, there are no nuclei present in the reactor. A radionuclide with disintegration constant lemda is produced in a reactor at a constant rate alpha (= 2 lemda) nuclei per [...]
(a) A nuclear explosion is designed to deliver 1 MW of heat energy, how many fission events must be required in a second to attain this power level. (b) If this explosion is designed with a nuclear fuel consisting of uranium 235 to run a reactor at this
12
Sep
(a) A nuclear explosion is designed to deliver 1 MW of heat energy, how many fission events must be required in a second to attain this power level. (b) If this explosion is designed with a nuclear fuel consisting of uranium 235 to run a reactor at this (a) A nuclear explosion is designed to [...]
The figure shows a surface XY seperating two transparent media. Medium I and medium II . Light travel as a
12
Sep
The figure shows a surface XY seperating two transparent media. Medium I and medium II . Light travel as a The figure shows a surface XY seperating two transparent media. Medium I and medium II . Light travel as a September 12, 2020 Category: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
What is the power output of a 92 U 235 reactor if it takes 30 days to use up 2 kg of fuel, and if each fission gives 185 MeV of usable energy?
12
Sep
What is the power output of a 92 U 235 reactor if it takes 30 days to use up 2 kg of fuel, and if each fission gives 185 MeV of usable energy? and if each fission gives 185 MeV of usable energy? What is the power output of a 92 U 235 reactor if [...]
A nuclear reactor using 235 U generates 250 MW of electrical power. The efficiency of the reactor (i.e., efficiency of conversion of thermal energy into electrical energy) is 25%.
12
Sep
A nuclear reactor using 235 U generates 250 MW of electrical power. The efficiency of the reactor (i.e., efficiency of conversion of thermal energy into electrical energy) is 25%. A nuclear reactor using 235 U generates 250 MW of electrical power. The efficiency of the reactor (i.e. efficiency of conversion of thermal energy into electrical [...]
In the process of nuclear fission of 1 g uranium. the mass lost is 0.92 mg. The efficiency of power house run by the fission reactor is 10%. To obtain 400 megawatt power from the power house,
12
Sep
In the process of nuclear fission of 1 g uranium. the mass lost is 0.92 mg. The efficiency of power house run by the fission reactor is 10%. To obtain 400 megawatt power from the power house, In the process of nuclear fission of 1 g uranium. the mass lost is 0.92 mg. The efficiency [...]
Following figures shows sources S1 and S2 that emits light of wavelength λ in all directions. The sources are exactly in phase and are separated by a distance equal to 1.5λ. If we start at the indicated start point and travel along path 1 and 2, the interference produce a maxima all along
12
Sep
Following figures shows sources S1 and S2 that emits light of wavelength λ in all directions. The sources are exactly in phase and are separated by a distance equal to 1.5λ. If we start at the indicated start point and travel along path 1 and 2, the interference produce a maxima all along Four different [...]
Two coherent sources S1 and S2 area separated by a distance four times the wavelength λ of the source. The sources lie along y axis whereas a detector moves along +x axis. Leaving the origin and far off points the number of points where maxima are observed is
12
Sep
Two coherent sources S1 and S2 area separated by a distance four times the wavelength λ of the source. The sources lie along y axis whereas a detector moves along +x axis. Leaving the origin and far off points the number of points where maxima are observed is Four different independent waves are represented by [...]