Presentation is loading. Please wait.

Presentation is loading. Please wait.

Ionization Energy and Electron Affinity Section 7.4-7.5.

Published byBertram Austin Hubbard Modified over 9 years ago

Similar presentations

Presentation on theme: "Ionization Energy and Electron Affinity Section 7.4-7.5."— Presentation transcript:

1 Ionization Energy and Electron Affinity Section 7.4-7.5

2 Objectives Examine periodic trends in ionization energy Examine periodic trends in electron affinity

3 Key Terms Ionization energy Electron Affinity

4 Ionization Energy Ease at which electrons can be removed from an atom or ion First ionization energy, I 1, is the energy required to remove the first electron from neutral atom Second ionization energy, I 2, is the energy required to remove the second electron from a +1 ion Greater the I, the more difficult to remove the electron

5 Trends of Ionization Energy I 1 < I 2 < I 3 < I 4 With each removal, the ion becomes more positive Strengthens nucleus’s hold on its electrons Sharp increase in I when inner-shell electrons are removed Table 7.2 on page 271

6

7 Periodic Trends in I 1 Within rows, I 1 increases with atomic number Slight irregularities Within columns, I 1 decreases with increasing atomic number Representative elements show larger range of I 1 values than transition metals Transitions slowly increase across rows

8

9

10 Factors Affecting Trends More energy is needed to remove an electron as: Effective Nuclear Charge increases Atomic Radius decreases

11

12 Irregularities I does not always increases across rows Decrease from Be to B Be: [He] 2s 2 B: [He]2s 2 2p 1 The most easily removed electron in B is that in the 2p orbital, higher in energy than the 2s electrons in Be 2p electron of B needs less energy for total removal than does the 2s electron of Be

13 Irregularities O is lower than N N: [He]2s2 2p3 O: [He]2s2 2p4 Important difference in the way electrons are distributed Hund’s rule: 3 e- in the 2p orbitals of a nitrogen atom all have the same spin, but e- are paired in one of the 2p orbitals of oxygen Electrons try to stay as far apart as possible to minimize repulsion Force of repulsion between these electrons is minimized to some extent by pairing electrons Slightly easier to remove an electron

14 Electron Affinities Energy change that occurs when electron are added to a gaseous atom Measure of the attraction of an atom to an electron Negative values (energy is released during process) kJ/mol More negative affinity = greater attraction

15 Trends in Affinities Not as evident as that of ionization energy Halogens have the greatest affinities (1 e- shy of a filled p subshell) Noble gases have affinities of 0 Group 2A and 5A have very little affinity

16 Electron Affinities (kJ/mol)

17

18

19 Putting it all together

20 Homework 7.35, 7.42, 7.44, and 7.46 on page 294

Download ppt "Ionization Energy and Electron Affinity Section 7.4-7.5."

Similar presentations

Periodic Trends You will know what ionization energy is and how it trends on the periodic table You will know what electron affinity and electronegativity.

Periodic Trends You will know what ionization energy is and how it trends on the periodic table You will know what electron affinity and electronegativity.
Electron Affinity.

Electron Affinity.
Esther Jun, Claire Lee, and Eunhye Oak

Esther Jun, Claire Lee, and Eunhye Oak
Periodic Trends.

Periodic Trends.
NOTES ON PERIODIC TRENDS 6.1 Effective Nuclear Charge (Z eff ) – In a many-electron atom, each electron is attracted to the positively charged nucleus.

NOTES ON PERIODIC TRENDS 6.1 Effective Nuclear Charge (Z eff ) – In a many-electron atom, each electron is attracted to the positively charged nucleus.
Trends and Similarities

Trends and Similarities
5-3 Electron Configurations and Periodic Properties

5-3 Electron Configurations and Periodic Properties
IONIZATION ENERGY. Ionization energy: The energy required to remove an electron from an gaseous atom or an ion. Measure in Joules. Think of it as a measure.

IONIZATION ENERGY. Ionization energy: The energy required to remove an electron from an gaseous atom or an ion. Measure in Joules. Think of it as a measure.
Configurations, Spin, and Ionization Energy. Filling Order of Orbitals in Multielectron Atoms 1s 2 2s 2 2p 6 3s 2 3p 6 4s 2 3d 10 4p 6 5s 2 …

Configurations, Spin, and Ionization Energy. Filling Order of Orbitals in Multielectron Atoms 1s 2 2s 2 2p 6 3s 2 3p 6 4s 2 3d 10 4p 6 5s 2 …
PERIODIC PROPERTIES Chapter 6.

PERIODIC PROPERTIES Chapter 6.
Periodic Trends Objectives: 1. Define the term periodic trend.

Periodic Trends Objectives: 1. Define the term periodic trend.
Ionization Energy 12.1.1 Explain how evidence from first ionization energies across periods accounts for the existence of main energy levels and sub-levels.

Ionization Energy Explain how evidence from first ionization energies across periods accounts for the existence of main energy levels and sub-levels.
Lecture 5 Trends in Atomic Properties. Energies and sizes -The first ionization energy (IE) of an atom (M) is the energy required to form the positive.

Lecture 5 Trends in Atomic Properties. Energies and sizes -The first ionization energy (IE) of an atom (M) is the energy required to form the positive.
Done By Lecturer: Amal Abu- Mostafa.  OBJECTIVES: ◦ Describe periodic trends for:  A) Atomic and Ionic sizes.  B) Ionization energy.  C) Electron.

Done By Lecturer: Amal Abu- Mostafa.  OBJECTIVES: ◦ Describe periodic trends for:  A) Atomic and Ionic sizes.  B) Ionization energy.  C) Electron.
WHAT ARE THE PERIODIC TRENDS?. Periodic Trends All information in contained in table S Predictable properties/changes that occur as we move down groups.

WHAT ARE THE PERIODIC TRENDS?. Periodic Trends All information in contained in table S Predictable properties/changes that occur as we move down groups.
Chemical Periodicity Chapter 6. Chemical Periodicity The periodic table is arranged in rows according to increasing atomic number. Physical and chemical.

Chemical Periodicity Chapter 6. Chemical Periodicity The periodic table is arranged in rows according to increasing atomic number. Physical and chemical.
The Periodic Table and its Trends. Effective Nuclear Charge (Z eff ) e- are pulled to the nucleus because they are negative, and the nucleus is positive.

The Periodic Table and its Trends. Effective Nuclear Charge (Z eff ) e- are pulled to the nucleus because they are negative, and the nucleus is positive.
Periodic Trends You will know what ionization energy is and how it trends on the periodic table You will know what electron affinity and electronegativity.

Periodic Trends You will know what ionization energy is and how it trends on the periodic table You will know what electron affinity and electronegativity.
Academic Chemistry Class Notes April 9, 2015 Periodic Trends of the Elements.

Academic Chemistry Class Notes April 9, 2015 Periodic Trends of the Elements.
Periodic Properties.

Periodic Properties.

Similar presentations

Ads by Google