such that PB-PA=lambda//4. Then the phase difference between the waves from A and B reaching P is

Sahay Sir > Question Answers > such that PB-PA=lambda//4. Then the phase difference between the waves from A and B reaching P is
A particular type of nucleus whose decay constant is lambda is produced at a steady rate of p nuclei per second. Show that the number of nuclei N present t second after the production starts is N=(P)/(lambda)[1-e^(~lambdat)].
25
Aug
A particular type of nucleus whose decay constant is lambda is produced at a steady rate of p nuclei per second. Show that the number of nuclei N present t second after the production starts is N=(P)/(lambda)[1-e^(~lambdat)]. A gas hydrogen like atoms can absorb radiations of 68eV. Consequently A is ahead of B in phase [...]
Posted in: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
Tags: A gas hydrogen like atoms can absorb radiations of 68eV. Consequently , A is ahead of B in phase by 66^@. If the observation be taken from point P , Among the two interfering monochromatic sources A and B , such that PB-PA=lambda//4. Then the phase difference between the waves from A and B reaching P is ,
Calculate the change in magnetic dipole moment when the electron in a H-atom makes a transition from the n=4 orbit to the n=3 orbit. Suppose that the atoms is in a magnetic field of induction. Calculate the change in energy when it makes the same transition and the corresponding change in frequency of the emitted photon due to the magnetic field.
25
Aug
Calculate the change in magnetic dipole moment when the electron in a H-atom makes a transition from the n=4 orbit to the n=3 orbit. Suppose that the atoms is in a magnetic field of induction. Calculate the change in energy when it makes the same transition and the corresponding change in frequency of the emitted [...]
Posted in: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
Tags: A gas hydrogen like atoms can absorb radiations of 68eV. Consequently , A is ahead of B in phase by 66^@. If the observation be taken from point P , Among the two interfering monochromatic sources A and B , such that PB-PA=lambda//4. Then the phase difference between the waves from A and B reaching P is ,
A monochromatic beam of light (lamda = 4900A) incident normally upon a surface produces a pressure of 5 x 10^(-7) N/m^(-2) on it. Assume that 25% of the light incident in reflected and the rest absorbed. Find the number of photons falling per second on a unit area of thin surface
25
Aug
A monochromatic beam of light (lamda = 4900A) incident normally upon a surface produces a pressure of 5 x 10^(-7) N/m^(-2) on it. Assume that 25% of the light incident in reflected and the rest absorbed. Find the number of photons falling per second on a unit area of thin surface A gas hydrogen like [...]
Posted in: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
Tags: A gas hydrogen like atoms can absorb radiations of 68eV. Consequently , A is ahead of B in phase by 66^@. If the observation be taken from point P , Among the two interfering monochromatic sources A and B , such that PB-PA=lambda//4. Then the phase difference between the waves from A and B reaching P is ,
A gas hydrogen like atoms can absorb radiations of 68eV. Consequently, the atoms emit radiations of only three different wavelengths. All the wavelengths are equal or smaller than that of the absorbed photon. (a) Determine the initial state of the gas atoms. (b) Identify the gas atoms. (c) Find the minimum wavelength of the emitted radiation. (d) Find the ionization energy and the respective wavelength for the gas atoms.
25
Aug
A gas hydrogen like atoms can absorb radiations of 68eV. Consequently, the atoms emit radiations of only three different wavelengths. All the wavelengths are equal or smaller than that of the absorbed photon. (a) Determine the initial state of the gas atoms. (b) Identify the gas atoms. (c) Find the minimum wavelength of the emitted [...]
Posted in: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
Tags: A gas hydrogen like atoms can absorb radiations of 68eV. Consequently , A is ahead of B in phase by 66^@. If the observation be taken from point P , Among the two interfering monochromatic sources A and B , such that PB-PA=lambda//4. Then the phase difference between the waves from A and B reaching P is ,
P is small angled prism of angle 3 made of a material of refractive index 1.5. A ray of light is incident normally to the mirror as shown in figure. M is a plane mirror. The angle of deviation for the ray reflected from the mirror M with respect to the incident ray is :
25
Aug
P is small angled prism of angle 3 made of a material of refractive index 1.5. A ray of light is incident normally to the mirror as shown in figure. M is a plane mirror. The angle of deviation for the ray reflected from the mirror M with respect to the incident ray is : [...]
Posted in: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
Tags: A is ahead of B in phase by 66^@. If the observation be taken from point P , Among the two interfering monochromatic sources A and B , such that PB-PA=lambda//4. Then the phase difference between the waves from A and B reaching P is ,
Among the two interfering monochromatic sources A and B, A is ahead of B in phase by 66. If the observation be taken from point P, such that PB – PA = lambda/4. Then the phase difference between the waves from A and B reaching P is
25
Aug
Among the two interfering monochromatic sources A and B, A is ahead of B in phase by 66. If the observation be taken from point P, such that PB – PA = lambda/4. Then the phase difference between the waves from A and B reaching P is A is ahead of B in phase by [...]
Posted in: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
Tags: A is ahead of B in phase by 66^@. If the observation be taken from point P , Among the two interfering monochromatic sources A and B , such that PB-PA=lambda//4. Then the phase difference between the waves from A and B reaching P is ,