Chapter 29 – Atomic Structure

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The ratio between total acceleration of the electron in singly ionized helium atom and hydrogen atom (both in ground state) is
05
Jun
The ratio between total acceleration of the electron in singly ionized helium atom and hydrogen atom (both in ground state) is The ratio between total acceleration of the electron in singly ionized helium atom and hydrogen atom ( both in ground state ) is June 5, 2021 Category: Cengage JEE Mains Physics by B.M Sharma [...]
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The ionization energy of the ionized sodium atom Na^+10 is
05
Jun
The ionization energy of the ionized sodium atom Na^+10 is The ionization energy of the ionized sodium atom Na^10+ is June 5, 2021 Category: Cengage JEE Mains Physics by B.M Sharma , Chapter 29 - Atomic Structure ,
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Magnetic field at the center (at nucleus) of the hydrogen like atoms (atomic number =Z) due to the motion of electron in nth orbit is proportional to
05
Jun
Magnetic field at the center (at nucleus) of the hydrogen like atoms (atomic number =Z) due to the motion of electron in nth orbit is proportional to Magnetic field at the center (at nucleus) of the hydrogen like atoms (atomic number =Z) due to the motion of electron in nth orbit is proportional to June [...]
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Tags: Magnetic field at the center (at nucleus) of the hydrogen like atoms (atomic number =Z) due to the motion of electron in nth orbit is proportional to ,
When photon of wavelength λ1 are incident on an isolated sphere suspended by an insulated , the corresponding stopping potential is found to be V. When photon of wavelength λ2 are used , the corresponding stopping potential was thrice the above value. If light of wavelength λ3 is used , calculate the stopping potential for this case.
05
Jun
When photon of wavelength λ1 are incident on an isolated sphere suspended by an insulated , the corresponding stopping potential is found to be V. When photon of wavelength λ2 are used , the corresponding stopping potential was thrice the above value. If light of wavelength λ3 is used , calculate the stopping potential for [...]
Posted in: Cengage JEE Mains Physics by B.M Sharma , Chapter 29 - Atomic Structure ,
Tags: calculate the stopping potential for this case. , the corresponding stopping potential is found to be V. When photon of wavelength λ2 are used , the corresponding stopping potential was thrice the above value. If light of wavelength λ3 is used , When photon of wavelength λ1 are incident on an isolated sphere suspended by an insulated ,
Let the potential energy of the hydrogen atom in the ground state be zero . Then its energy in the first excited state will be
05
Jun
Let the potential energy of the hydrogen atom in the ground state be zero . Then its energy in the first excited state will be Let the potential energy of the hydrogen atom in the ground state be zero . Then its energy in the first excited state will be June 5, 2021 Category: Cengage [...]
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Tags: Let the potential energy of the hydrogen atom in the ground state be zero . Then its energy in the first excited state will be ,
In hydrogen atom, the transition takes place from n=3 to n=2. If Rydberg’s constant is 1.09×10^7 per metre, the wavelength of the line emitted is
05
Jun
In hydrogen atom, the transition takes place from n=3 to n=2. If Rydberg’s constant is 1.09×10^7 per metre, the wavelength of the line emitted is In hydrogen atom the transition takes place from n=3 to n=2. If Rydberg's constant is 1.09×10^7 per metre the wavelength of the line emitted is June 5, 2021 Category: Cengage [...]
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Tags: In hydrogen atom , the transition takes place from n=3 to n=2. If Rydberg's constant is 1.09×10^7 per metre , the wavelength of the line emitted is ,
If potential energy between a proton and an electron is given by |U|=ke2/2R^3, where e is the charge of electron and R is the radius of atom , that radius of Bohr’s orbit is given by (h=Plank’s constant, k=constant)
05
Jun
If potential energy between a proton and an electron is given by |U|=ke2/2R^3, where e is the charge of electron and R is the radius of atom , that radius of Bohr’s orbit is given by (h=Plank’s constant, k=constant) If potential energy between a proton and an electron is given by |U|=ke2/2R^3 k=constant) that radius [...]
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Tags: If potential energy between a proton and an electron is given by |U|=ke2/2R^3 , k=constant) , that radius of Bohr's orbit is given by (h=Plank's constant , where e is the charge of electron and R is the radius of atom ,
The orbital velocity of electron in the ground state is v. If the electron is excited to energy state −0.54 eV, its orbital velocity will be
05
Jun
The orbital velocity of electron in the ground state is v. If the electron is excited to energy state −0.54 eV, its orbital velocity will be its orbital velocity will be The orbital velocity of electron in the ground state is v. If the electron is excited to energy state −0.54 eV June 5, 2021 [...]
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Tags: its orbital velocity will be , The orbital velocity of electron in the ground state is v. If the electron is excited to energy state −0.54 eV ,
If element with particle quantum number n>4 were not allowed in nature , the number of possible elements would have been
05
Jun
If element with particle quantum number n>4 were not allowed in nature , the number of possible elements would have been If element with particle quantum number n>4 were not allowed in nature the number of possible elements would have been June 5, 2021 Category: Cengage JEE Mains Physics by B.M Sharma , Chapter 29 [...]
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Tags: If element with particle quantum number n>4 were not allowed in nature , the number of possible elements would have been ,
The force acting on the electron in a hydrogen atom depends on the principal quantum number as
05
Jun
The force acting on the electron in a hydrogen atom depends on the principal quantum number as The force acting on the electron in a hydrogen atom depends on the principal quantum number as June 5, 2021 Category: Cengage JEE Mains Physics by B.M Sharma , Chapter 29 - Atomic Structure ,
Posted in: Cengage JEE Mains Physics by B.M Sharma , Chapter 29 - Atomic Structure ,
Tags: The force acting on the electron in a hydrogen atom depends on the principal quantum number as ,