Question Answers

Sahay Sir > Question Answers
A concave lens of glass, refractive index 1.5, has both surfaces of same radius of curvature R. On immersion in a medium of refractive index 1.75, it will behave as a :
09
Nov
A concave lens of glass, refractive index 1.5, has both surfaces of same radius of curvature R. On immersion in a medium of refractive index 1.75, it will behave as a : A concave lens of glass has both surfaces of same radius of curvature R. On immersion in a medium of refractive index 1.75 [...]
Posted in: Chapter 9 - Ray Optics , MTG NEET Physics , Part 1 ,
Tags: A concave lens of glass , has both surfaces of same radius of curvature R. On immersion in a medium of refractive index 1.75 , it will behave as a : , refractive index 1.5 ,
Which one of the following spherical lenses does not exhibit dispersion? The radii of curvature of the surfaces of the lenses are as given in the diagram.
09
Nov
Which one of the following spherical lenses does not exhibit dispersion? The radii of curvature of the surfaces of the lenses are as given in the diagram. Which one of the following spherical lenses does not exhibit dispersion? The radii of curvature of the surfaces of the lenses are as given in the diagram. November [...]
Posted in: Chapter 9 - Ray Optics , MTG NEET Physics , Part 1 ,
Tags: Which one of the following spherical lenses does not exhibit dispersion? The radii of curvature of the surfaces of the lenses are as given in the diagram. ,
An electron beam can undergo diffraction by crystals. Through what potential should a beam of electrons be accelerated so that its wavelength becomes equal to 1.54 A˚ ?
09
Nov
An electron beam can undergo diffraction by crystals. Through what potential should a beam of electrons be accelerated so that its wavelength becomes equal to 1.54 A˚ ? An electron beam can undergo diffraction by crystals. Through what potential should a beam of electrons be accelerated so that its wavelength becomes equal to 1.54 A˚ [...]
Posted in: Chapter 2 - Atomic Structure , Chemistry , JEE Adv and Mains Chemistry 41 Years Solved Video Solutions 1979 - 2019 ,
Tags: An electron beam can undergo diffraction by crystals. Through what potential should a beam of electrons be accelerated so that its wavelength becomes equal to 1.54 A˚ ? ,
Calculate the energy required to excite one litre of hydrogen gas at 1 atm pressure and 298 K to the first excited state of atomic hydrogen. The energy for the dissociation of H-H bond is 436 kJ mol^−1 .
09
Nov
Calculate the energy required to excite one litre of hydrogen gas at 1 atm pressure and 298 K to the first excited state of atomic hydrogen. The energy for the dissociation of H-H bond is 436 kJ mol^−1 . at a distance r from the nucleus. The volume of this shell is 4 πr^2 dr. [...]
Posted in: Chapter 2 - Atomic Structure , Chemistry , JEE Adv and Mains Chemistry 41 Years Solved Video Solutions 1979 - 2019 ,
Tags: at a distance r from the nucleus. The volume of this shell is 4 πr^2 dr. The qualitative sketch of the dependence of P on r is , dr , P is the probability of finding the 1s electron of hydrogen atom in a spherical shell of infinitesimal thickness ,
The wavelength corresponding to maximum energy for hydrogen is 91.2nm. Find the corresponding wavelength for He^+ ion.
09
Nov
The wavelength corresponding to maximum energy for hydrogen is 91.2nm. Find the corresponding wavelength for He^+ ion. The wavelength corresponding to maximum energy for hydrogen is 91.2nm. Find the corresponding wavelength for He^+ ion. November 9, 2020 Category: Chapter 2 - Atomic Structure , Chemistry , JEE Adv and Mains Chemistry 41 Years Solved Video [...]
Posted in: Chapter 2 - Atomic Structure , Chemistry , JEE Adv and Mains Chemistry 41 Years Solved Video Solutions 1979 - 2019 ,
Tags: The wavelength corresponding to maximum energy for hydrogen is 91.2nm. Find the corresponding wavelength for He^+ ion. ,
(a) The Schrodinger wave equation for hydrogen atom is: Ψ2s ​ = 1/ 4 (2 π)^v2 (1/a0)3/2 [2− a0/r ]e^−r/a 0 ​ where a 0 ​ is Bohr radius. If the radial node in 2s be at r0 ​ , then find r in terms of a0 . (b) A ball of 100 g mass is thrown with a velocity of 100 m/s. Find out the value of wavelength of base ball.
09
Nov
(a) The Schrodinger wave equation for hydrogen atom is: Ψ2s ​ = 1/ 4 (2 π)^v2 (1/a0)3/2 [2− a0/r ]e^−r/a 0 ​ where a 0 ​ is Bohr radius. If the radial node in 2s be at r0 ​ , then find r in terms of a0 . (b) A ball of 100 g mass [...]
Posted in: Chapter 2 - Atomic Structure , Chemistry , JEE Adv and Mains Chemistry 41 Years Solved Video Solutions 1979 - 2019 ,
Tags: (a) The Schrodinger wave equation for hydrogen atom is: Ψ2s ​ = 1/ 4 (2 π)^v2 (1/a0)3/2 [2− a0/r ]e^−r/a 0 ​ where a 0 ​ is Bohr radius. If the radial node in 2s be at r0 ​ , then find r in terms of a0 . (b) A ball of 100 g mass is thrown with a velocity of 100 m/s. Find out the value of wavelength of base ball. ,
(a) Calculate velocity of electron in first Bohr orbit of hydrogen atom (Given, r = a0 ). (b) Find de Broglie wavelength of the electron in first Bohr orbit. (c) Find the orbital angular momentum of 2p-orbital in terms of h/2π units.
09
Nov
(a) Calculate velocity of electron in first Bohr orbit of hydrogen atom (Given, r = a0 ). (b) Find de Broglie wavelength of the electron in first Bohr orbit. (c) Find the orbital angular momentum of 2p-orbital in terms of h/2π units. (a) Calculate velocity of electron in first Bohr orbit of hydrogen atom (Given [...]
Posted in: Chapter 2 - Atomic Structure , Chemistry , JEE Adv and Mains Chemistry 41 Years Solved Video Solutions 1979 - 2019 ,
Tags: (a) Calculate velocity of electron in first Bohr orbit of hydrogen atom (Given , r = a0 ). (b) Find de Broglie wavelength of the electron in first Bohr orbit. (c) Find the orbital angular momentum of 2p-orbital in terms of h/2π units. ,
The maximum number of electrons that can have principal quantum number, n=3 and spin quantum number, ms = −2/1, ​is
09
Nov
The maximum number of electrons that can have principal quantum number, n=3 and spin quantum number, ms = −2/1, ​is is ms = −2/1 n=3 and spin quantum number The maximum number of electrons that can have principal quantum number November 9, 2020 Category: Chapter 2 - Atomic Structure , Chemistry , JEE Adv and [...]
Posted in: Chapter 2 - Atomic Structure , Chemistry , JEE Adv and Mains Chemistry 41 Years Solved Video Solutions 1979 - 2019 ,
Tags: is , ms = −2/1 , n=3 and spin quantum number , The maximum number of electrons that can have principal quantum number ,
A point source of light is kept below the surface of water (nw = 4/3) at a depth of root 7 m. The radius of the circular bright patch of light noticed on the surface of water is ______ m.
09
Nov
A point source of light is kept below the surface of water (nw = 4/3) at a depth of root 7 m. The radius of the circular bright patch of light noticed on the surface of water is ______ m. A point source of light is kept below the surface of water (nw = 4/3) [...]
Posted in: Chapter 9 - Ray Optics , MTG NEET Physics , Part 1 ,
Tags: A point source of light is kept below the surface of water (nw = 4/3) at a depth of root 7 m. The radius of the circular bright patch of light noticed on the surface of water is ______ m. ,
The work function (ϕ) of some metals are listed below. The number of metals which will show the photoelectric effect when the light of 300 nm wavelength falls on the metal is:
09
Nov
The work function (ϕ) of some metals are listed below. The number of metals which will show the photoelectric effect when the light of 300 nm wavelength falls on the metal is: The work function (ϕ) of some metals are listed below. The number of metals which will show the photoelectric effect when the light [...]
Posted in: Chapter 2 - Atomic Structure , Chemistry , JEE Adv and Mains Chemistry 41 Years Solved Video Solutions 1979 - 2019 ,
Tags: The work function (ϕ) of some metals are listed below. The number of metals which will show the photoelectric effect when the light of 300 nm wavelength falls on the metal is: ,