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An electron beam is accelerated by a potential difference V to hit a metallic target to produce X−rays. It produces continuous as well as characteristic X−rays. If λmin is the smallest possible wavelength of X−ray in the spectrum, the variation of logλmin with log V is correctly represented in :
29
Nov
An electron beam is accelerated by a potential difference V to hit a metallic target to produce X−rays. It produces continuous as well as characteristic X−rays. If λmin is the smallest possible wavelength of X−ray in the spectrum, the variation of logλmin with log V is correctly represented in : In an electron microscope the [...]
Posted in: Chapter 17 - Dual Nature of Radiation , JEE Mains Physics 2002-2019 Solved Video Solutions ,
Tags: In an electron microscope , the minimum electron energy required is close to , the resolution that can be achieved is of the order of the wavelength of electrons used. To resolve a width of 7.5×10^−12m ,
An electron from various excited states of hydrogen atom emit radiation to come to the ground state. Let λn,λg be the de Broglie wavelength of the electron in the nth state and the ground state respectively. Let ⋀n be the wavelength of the emitted photon in the transition from the nth state to the ground state. For large n, (A, B are constants)
29
Nov
An electron from various excited states of hydrogen atom emit radiation to come to the ground state. Let λn,λg be the de Broglie wavelength of the electron in the nth state and the ground state respectively. Let ⋀n be the wavelength of the emitted photon in the transition from the nth state to the ground [...]
Posted in: Chapter 17 - Dual Nature of Radiation , JEE Mains Physics 2002-2019 Solved Video Solutions ,
Tags: An electron from various excited states of hydrogen atom emit radiation to come to the ground state. Let λn , In an electron microscope , the minimum electron energy required is close to , the resolution that can be achieved is of the order of the wavelength of electrons used. To resolve a width of 7.5×10^−12m ,
In an electron microscope, the resolution that can be achieved is of the order of the wavelength of electrons used. To resolve a width of 7.5×10^−12m, the minimum electron energy required is close to :
29
Nov
In an electron microscope, the resolution that can be achieved is of the order of the wavelength of electrons used. To resolve a width of 7.5×10^−12m, the minimum electron energy required is close to : In an electron microscope the minimum electron energy required is close to the resolution that can be achieved is of [...]
Posted in: Chapter 17 - Dual Nature of Radiation , JEE Mains Physics 2002-2019 Solved Video Solutions ,
Tags: In an electron microscope , the minimum electron energy required is close to , the resolution that can be achieved is of the order of the wavelength of electrons used. To resolve a width of 7.5×10^−12m ,
In an electron microscope, the resolution that can be achieved is of the order of the wavelength of electrons used. To resolve a width of 7.5×10^−12 m, the minimum electron energy required is close to
11
Nov
In an electron microscope, the resolution that can be achieved is of the order of the wavelength of electrons used. To resolve a width of 7.5×10^−12 m, the minimum electron energy required is close to In an electron microscope the minimum electron energy required is close to the resolution that can be achieved is of [...]
Posted in: Chapter 10 - Wave Optics , MTG NEET Physics , Part 2 ,
Tags: In an electron microscope , the minimum electron energy required is close to , the resolution that can be achieved is of the order of the wavelength of electrons used. To resolve a width of 7.5×10^−12 m ,