Home
Class 12
CHEMISTRY
A hydrogen like, atom ( atomic number =Z...

A hydrogen like, atom ( atomic number =Z) is in a higher excited state of quantum number n. This excited atom can make a transition to first excited state by successively emitting two photons of energies 10.20eV and 17.0 eV respectively. Alternatively, the atom from the same excited state can make a transition to second excited state by successively emitting two phons of energy 4.25 eV and 5.95eV respectively. Determine the values of n and Z.

Text Solution

Verified by Experts

The energy emitted during transition of electron from `n^(th)` shell to first excited state ( i.e. `2^(nd)` shell ) `10.20 + 17.0 = 27.2 eV = 27.2 xx 1.6 = 10^(-19) J`
`Delta E = R_(H) Z^(2) hc [ (1)/( 2^(2)) - ( 1)/( n ^(2)) ]`
`27.2 xx 1.6 xx 10^(-19)`
`= 1.09 xx 10^(7) xx Z^(2) xx 6.6 xx 10^(-34) xx 3 xx 10^(8) [ ( 1)/( 2^(2)) - ( 1)/( n^(2)) ]` ....(1)
Similarly total energy liberated during transition of electron from nth shell to second excited state ( i.e. `3^(rd)` shell )
`= 4.25 xx 5.95 = 10.20 eV = 10.20 xx 1.6 xx 10^(-19) J `
`:. 10.20 xx 1.6 xx 10^(-19)`
`= 1.09 xx 10^(7) xx Z^(2) xx 6.6 xx 10^(-34) xx 3 xx 10^(8) [ ( 1)/( 3^(2)) - ( 1)/( n ^(2)) ] ` ......(2)
Dividing equation (1) by equation (2)
n = 2
On substituting the value of n in equation (1) or (2)
Z = 3
Promotional Banner

Topper's Solved these Questions

  • ATOMIC STRUCTURE

    FIITJEE|Exercise MORE THAN ONE CORRECT OPTION|30 Videos

  • ATOMIC STRUCTURE

    FIITJEE|Exercise COMPREHENSION -I|3 Videos

  • ATOMIC STRUCTURE

    FIITJEE|Exercise SINGLE INTEGER TYPE QUESTIONS|8 Videos

  • ALKYL AND ARYL HALIDES

    FIITJEE|Exercise NUMERICAL BASED QUESTIONS|1 Videos

  • CARBOHYDRATES, AMINO ACIDS, POLYMERS AND PRACTICAL ORGANIC CHEMISTRY

    FIITJEE|Exercise EXERCISE|4 Videos

Similar Questions

Explore conceptually related problems

A hydrogen like atom (atomic number z ) is in a higher excited state of quantum number n . This excited atom can make a transition to the first excited state by successively emitting two photons of energies 10.2 eV and 17.0 eV respectively. Alternatively the atom from the same excited state can make a transition to the second excited state by successively emitting 2 photons of energy 4.25 eV and 5.95 eV respectively. Determine the value of (n+z)

A hydrogen like atom (atomic number Z) is in a higher excited state of quantum number n. The excited atom can make a transition ot the first excited state by successively emitting two photons of energy 10.2 eV and 17.0 eV, respectively. Alternatively, the atom from the same excited state can make a transition to the second excited state by successively emitting two photons of energies 4.25 eV and 5.95 eV, respectivley Determine the values of n and Z. (lonization energy of H-atom = 13.6 eV)

A hydrogen-like atom (aatomic number Z ) is in a hight excited state of quantum number n . This excited atom can make a transition to the first excited state by successively emitting two proton of energy 10.20 e V and 17.00 e V , respectively. Alternatively , the atom from the same excited state can make a transition to the second excited state by successively emitting two proton of energy 4.25 e V and 5.954 e V , respectively. Determine the value of n and Z (ionization energy of hydrogen atom = 13.6 eV)

A hydrogen like species (atomic number Z) is present in a higher excited state of quantum number n. This excited atom can make a transitionn to the first excited state by successive emission of two photons of energies 10.20 eV and 17.0 eV respectively. Altetnatively, the atom from the same excited state can make a transition to the second excited state by successive of two photons of energy 4.25 eV and 5.95 eVv respectively. Determine the value of Z.

A hydrogen like atom (atomic number Z) is in a higher excited satte of quantum number n .This excited atom can make a transition to the first excited state by succesively emitting two photon of energies 10.20 eV and 17.00 eV .Alternatively, the atom from the same excited state can make a transition to the second excited state by successively emitting twio photon of energy 4.25 ev and 5.95 eV Determine the followings: The excited sate (n) of the atom is

A hydrogen like atom (atomic number Z) is in a higher excited satte of quantum number n .This excited atom can make a transition to the first excited state by succesively emitting two photon of energies 10.20 eV and 17.00 eV .Alternatively, the atom from the same excited state can make a transition to the second excited state by successively emitting twio photon of energy 4.25 ev and 5.95 eV Determine the followings: The value of atomic number (Z) is

A hydrogen like atom (atomic number Z) is in a higher excited satte of quantum number n .This excited atom can make a transition to the first excited state by succesively emitting two photon of energies 10.20 eV and 17.00 eV .Alternatively, the atom from the same excited state can make a transition to the second excited state by successively emitting twio photon of energy 4.25 ev and 5.95 eV Determine the followings: The atom during transition from n = 1 to n = 2 emit radiation in the region of

A hydrogen like atom (atomic number Z) is in a higher excited satte of quantum number n .This excited atom can make a transition to the first excited state by succesively emitting two photon of energies 10.20 eV and 17.00 eV .Alternatively, the atom from the same excited state can make a transition to the second excited state by successively emitting twio photon of energy 4.25 ev and 5.95 eV Determine the followings: The hydrogen -like atom in the question is

A hydrogen like atom (atomic number = Z) is in higher excited state of quantum number n. This excited atom can make a transition to first excited state by successively emitting two photons of energy 22.94 eV and 5.15 eV . The atom from the same state n can make transition to second excited state by successively emitting two photons of energies 2.4 eV and 8.7 eV . Find values of n and Z.

FIITJEE-ATOMIC STRUCTURE-ILLUSTRATION 1.
  1. Ammonium hydrogen sulphide dissociates as follows : NH(4) HS(s) hArr...

    Text Solution

    |

  2. To 500 mL of 0.150 M AgNO(3) solution were added 500 mL of 1.09 M Fe^(...

    Text Solution

    |

  3. The value of K(p) for the reaction 2H(2) O ( g) + 2Cl(2)(g) rarr 4HC...

    Text Solution

    |

  4. K(p) for the reaction N(2) O(4) (g) rarr 2NO(2)(g) is 0.66 at 46^(@)C....

    Text Solution

    |

  5. A sample of hydrogen gas has some atoms in one excited state. It emit...

    Text Solution

    |

  6. The angular momentum of an electron in a particular orbit of Li^(2+) i...

    Text Solution

    |

  7. A hydrogen like, atom ( atomic number =Z) is in a higher excited state...

    Text Solution

    |

  8. An electron jumps from a higher energy level to ground state by emitti...

    Text Solution

    |

  9. Find the velocity of an electron emitted by a metal whose threshold fr...

    Text Solution

    |

  10. A sample of Mg was burnt in air to give a mixure of MgO and Mg(3)N(2)....

    Text Solution

    |

  11. Calculate pH of basic solution having OH^(-) as ( i) 10^(-2) M and (...

    Text Solution

    |

  12. The calcium contained in a solution of 1.048 gm of the substance being...

    Text Solution

    |

  13. 1.249 g of a sample of pure BaCO(3) and impure CaCO(3) containing some...

    Text Solution

    |

  14. A 6.00g sample contained Fe(3) O(4), Fe(2) O(3) and inert materials. I...

    Text Solution

    |

  15. 25 ml of a dilute aqueous solution of p-hydroxy benzoic acid is titrat...

    Text Solution

    |

  16. For the reaction A + Brarr C +D, if concentratiton of A is doubled wit...

    Text Solution

    |

  17. The salt Zn(OH)(2) is involved in the following two equilibria, Zn(O...

    Text Solution

    |

  18. Prove that the dergee of dissociation of weak acid is given by: alph...

    Text Solution

    |

  19. What are the concentration of H(3) O^(+), HS^(-) and s^(2-) is 0.01M...

    Text Solution

    |

  20. An aqueous solution of aniline of concentration 0.24 M is prepared. Wh...

    Text Solution

    |