EBK CHEMICAL PRINCIPLES IN THE LABORATO
EBK CHEMICAL PRINCIPLES IN THE LABORATO
11th Edition
ISBN: 8220100546068
Author: SLOWINSKI
Publisher: YUZU
Question
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Chapter 11, Problem 1ASA

(a)

Interpretation Introduction

Interpretation:

The energies in kJ/mol for four lowest energy levels of the Be+3 ions bromine must be calculated.

Concept introduction: Bohr’s theory of atoms was applicable to the one electron system. It purposed the energy levels in an atom. It purposed the mathematical relation for the calculation of the radius of orbits, energy and velocity of electrons.

  Energy = -13.6Z2n2eV = -2.179 × 10-21 ×Z2n2 kJ=-21001 n2kJ/mol

(a)

Expert Solution
Check Mark

Answer to Problem 1ASA

  E=-21001 (1)2kJ/mol  =  -21001  kJ/molE=-21001 (2)2kJ/mol  =  -5250  kJ/molE=-21001 (3)2kJ/mol  =  -2333  kJ/molE=-21001 (4)2kJ/mol  =  -1,312.5  kJ/mol

Explanation of Solution

The atomic number of Beryllium = 4

Thus, the electronic configuration must be= 1s2,2s2 .

For the first four energy levels, the value of n must be 1, 2, 3 and 4 . Substitute the values to calculate the energy:

  Energy =-21001 n2kJ/mol

  E=-21001 (1)2kJ/mol  =  -21001  kJ/molE=-21001 (2)2kJ/mol  =  -5250  kJ/molE=-21001 (3)2kJ/mol  =  -2333  kJ/molE=-21001 (4)2kJ/mol  =  -1,312.5  kJ/mol

(b)

Interpretation Introduction

Interpretation: The energies for the transition from n=2 to n=1 level for Be+3 ions must be calculated along with the wavelength.

Concept introduction: Bohr’s theory of atoms was applicable to the one electron system. It purposed the energy levels in an atom. It purposed the mathematical relation for the calculation of the radius of orbits, energy and velocity of electrons.

  Energy = -13.6Z2n2eV = -2.179 × 10-21 ×Z2n2 kJ=-21001 n2kJ/mol

(b)

Expert Solution
Check Mark

Answer to Problem 1ASA

  ΔE  = 15,751 kJ/mol

   λ=7.60nm

Explanation of Solution

The atomic number of Beryllium = 4

Thus, the electronic configuration must be= 1s2,2s2

For the first four energy levels, the value of n must be 1, 2, 3 and 4 . Substitute the values to calculate the energy:

  Energy =-21001 n2kJ/mol

The energies for the transition from n = 2 to n = 1 level for Be+3 ions must be:

  ΔE  = EE= ( -5250  kJ/mol)( -21001  kJ/mol) = 15,751 kJ/mol

The wavelength will be:

   λ=hCEλ=6.626×10-34J×3.0×108m/s×6.022×1023 mol/atom15,751×10J3/mol= 7.60×10-9m = 7.60 nm

(c)

Interpretation Introduction

Interpretation: The quantum number of the initial and final states for the transition of given three wavelengths 6.078 nm, 6.411 nm, 117.23 nm must be calculated.

Concept introduction: Bohr’s theory of atoms was applicable to the one electron system. It purposed the energy levels in an atom. It purposed the mathematical relation for the calculation of the radius of orbits, energy and velocity of electrons.

  Energy = -13.6Z2n2eV = -2.179 × 10-21 ×Z2n2 kJ=-21001 n2kJ/mol

(c)

Expert Solution
Check Mark

Answer to Problem 1ASA

  a) 4 → 1 b) 3 → 1 c) 4 → 3

Explanation of Solution

Calculate energy fir the given three wavelengths 6.078 nm, 6.411 nm, 117.23 nm :

  E1=hCλ1E1=6.626×10-34J×3.0×108m/s×6.022×10236.078×10-9m= 19.69×106J/mol=19,690kJ/mol

  E2=hCλ2E2=6.626×10-34J×3.0×108m/s×6.022×10236.411×10-9m= 18.67×106J/mol=18672kJ/mol

  E3=hCλ3E3=6.626×10-34J×3.0×108m/s×6.022×1023117.23×10-9m= 1.02×106J/mol=1021kJ/mol

From the part (a):

  E=  -21001  kJ/molE=  -5250  kJ/molE=  -2333  kJ/molE= -1,312.5  kJ/mol

Thus, the difference in E1 and E4 gives the transition energy exactly equal to the energy calculated from the λ1 :

  ΔE1=19690 = E4 - E1 = -1312.5-(-21001)kJ/mol

Hence the λ1 must be associated with transition from 4 → 1.

The difference in E1 and E3 gives the transition energy exactly equal to the energy calculated from the λ2 . Hence the λ2 must be associated with transition from 3 → 1.

The difference in E3 and E4 gives the transition energy exactly equal to the energy calculated from the λ3 . Hence the λ3 must be associated with transition from 4 → 3.

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Chapter 11 Solutions

EBK CHEMICAL PRINCIPLES IN THE LABORATO

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