Esther Jun, Claire Lee, and Eunhye Oak

Slides:

Advertisements

Similar presentations

Periodic Relationships Among the Elements

Advertisements

Periodic Properties of the Elements

Electron Affinity.

Atomic Structure Ionisation Energies. Ionisation Energy The first ionisation energy of an element is the energy required to remove completely one mole.

Electron Configuration and Periodic Properties

The Periodic Table. Force of Attraction: Valence Electrons (Outer-Shell Electrons)  Electrons that can participate in the formation of chemical bonds.

Bhavik Patel. The diagram shows the first ionization energies for the elements from Li to Ne. Briefly (in one to three sentences) explain each of the.

Section 6.3 Periodic Trends

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 …

Ch 5.3 Electron Configuration and Periodic Properties

Periodic Trends Chapter 6 Section 3.

Ch 5.3 Electron Configuration and Periodic Properties

The Periodic Law says: PERIODIC LAW states that when elements are arranged in order of increasing atomic number, there is a periodic repetition of their.

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.

General Periodic Trends

Electronic Configurations

Chapter 6 Chemical & Physical Properties of the Elements and the Periodic Table.

The Trends in Elements in 1-20 Atomic Size Ionisation Energies.

Trends in the Periodic Table (Chpt. 7). 1. Atomic radius (size) 2. Ionization energy 3. Electronegativity The three properties of elements whose changes.

Chemistry 111 Periodic Trends.

Periodic Trends.

ALL Periodic Table Trends

Periodic Table Trends. Atomic Radius As you move down a group, atomic radius increases The number of energy levels increases as you move down a group.

IONISATION ENERGY OBJECTIVES: To define the term ‘ionisation energy’ To describe and explain the trends in ionisation energy across period 3 and down group.

Ionisation energy. Definitions The first ionisation energy is the energy required to remove the first (or outermost) electron from each atom in a mole.

Trends of the Periodic Table. Background Electrons can jump between shells (Bohr’s model supported by line spectra) The electrons can be pushed so far.

4 Periodic Trends: 1) Atomic Radius 2) Ionic Radius 3) Ionization Energy 4) ElectroNegativity ibchem.com/IB/ibfiles/periodicity/per_ppt/pt_trends.ppt.

Section Periodic Trends

Ionization Energy and Electron Affinity Section

Periodic Trends SCH 3U SECTION 1.3. Atomic Size (Atomic Radius)  The atomic size or radius of an refers to the distance between an atom's nucleus and.

3:00 2:59 2:58 2:57 2:56 2:55 2:54 2:53 2:52 2:51 2:50 2:49 2:48 2:47 2:46 2:45 2:44 2:43 2:42 2:41 2:40 2:39 2:38 2:37 2:36 2:35 2:34 2:33 2:32 2:31 2:30.

Trends in the Periodic Table… …revisited! SCH4U1.

Periodic Trends State and explain the following trends: the answers.

Trends in the periodic table. Atomic radius Atomic radii trends and explanations Atomic radius decreases across a period because each successive element.

Periodic Trends Periodic Table is arranged by: Atomic number Groups

Periodic Trends: Periodic Properties  Certain physical and chemical properties recur at regular intervals, and/or vary in regular fashion, when the elements.

Periodic Trends Notable trends of the table. What are periodic trends on the periodic table? The predictable pattern by which properties of elements change.

Chem 11. Ionization Energy The amount of energy required to completely remove an electron from a gaseous atom. Removing one electron makes a +1 ion.

Periodic Trends What pattern do you see? -Number of fingers shown increases from left to right.

Periodicity  Atomic Radius = half the distance between two nuclei of a diatomic molecule. } Radius.

IONISATION ENERGY CONTENTS What is Ionisation Energy?

Objectives To understand how the principal energy levels fill with electrons in atoms beyond hydrogen To learn about valence electrons and core electrons.

Periodic Trends. Atomic Size The electron cloud doesn’t have a definite edge. Scientists get around this by measuring more than 1 atom at a time. Summary:

Periodic Trends. Atomic Size u First problem where do you start measuring. u The electron cloud doesn’t have a definite edge. u They get around this by.

Factors Affecting Periodicity Periodic Trends: Atomic Radius: the distance from the center of the nucleus to the outermost electron (how big an atom is)

Periodic Trends. Atomic Size Every atom has a nucleus and electrons zooming around it How far the outermost electron is from the nucleus determines the.

Periodic Trends. Predicting Periodic Trends A number of physical and chemical properties of elements can be predicted from their position in the periodic.

5: Trends in the periodic table j.represent data, in a graphical form, for elements 1 to 36 and use this to explain the meaning of the term ‘periodic property’

Unit 8 ~ The Periodic Table (Chapters 4, 11) And YOU!!!!

Periodic Table. Periodic Table  Placed in order of their atomic numbers  The similar elements are placed in columns, known as groups or families  The.

Periodic Properties of Elements

Atomic Trends: Atomic Size n = 1 n = 2 n = 3 n = 4 n = 5 n = 6 n = 7 Increasing “n” Larger orbitals Small Large n is constant... Additional electrons.

IONISATION ENERGY. WHAT IS IONISATION ENERGY? Ionisation Energy is a measure of the amount of energy needed to remove electrons from atoms. As electrons.

Trends of the Periodic Table. Background Electrons can jump between shells (Bohr’s model supported by line spectra) The electrons can be pushed so far.

By the end of this section, I will be able to:

Periodic Trends.

7.1 Development of The Periodic Table

IONISATION ENERGY OBJECTIVES: To define the term ‘ionisation energy’ To describe and explain the trends in ionisation energy across period 3 and down.

1.6 IONISATION ENERGY OBJECTIVES: To define the term ‘ionisation energy’ To describe and explain the trends in ionisation energy across period 3 and.

Exploring Periodic Trends

electron configurations nuclear charge

Trends in the Periodic Table… …revisited!

Atomic Radii Ionic Radii Ionization Energies Electronegativity

TRENDS IN THE PERIODIC TABLE.

Periodic Trends.

1.6 IONISATION ENERGY OBJECTIVES: To define the term ‘ionisation energy’ To describe and explain the trends in ionisation energy across period 3 and.

Presentation transcript:

Esther Jun, Claire Lee, and Eunhye Oak Ionization Energy Esther Jun, Claire Lee, and Eunhye Oak What do those spikes mean???

Definition Ionization energy is the energy required to REMOVE an electron from an atom in the gas phase Atom in ground state(g)  Atom+ (g) + e- Always positive values measured in kJ/mol or eV/atom Besides hydrogen, atoms have a series of ionization energies because more than one electron can be removed

Group Trends First ionization energies generally DECREASE down a column Group showing off trends.

Explanation for Trend The electron removed is increasingly farther from the nucleus, thus reducing the nucleus- electron attractive force

A Deeper Explanation Inner electrons at lower energy levels "shield" the valence electrons from the nucleus’s force of attraction (Z*- effective nuclear charge). As each element of the group has more energy levels, the subshells decrease Z* for the electrons in the outer shell, making it easier to remove them.

Periodic Trends First ionization energies generally INCREASE left to right across a period

Explanation for Trend The number of protons increases from left to right; therefore, the Z* (effective nuclear charge) is greater to the right of a period. The electron experiences a greater electrostatic attraction to the nucleus, and as a result, more energy is needed to remove it.

Although inaccurate, the Bohr model serves as a good visual.

Exceptions to the trend (First Ionization Energy) First ionization energies from left to right across this period generally increases. But Boron and Oxygen don’t follow this trend! Why?

Exceptions to the trend (First Ionization Energy) Be: [He] 2s2 vs. B: [He] 2s2 2p1 When Boron is ionized, a 2p electron (slightly higher energy with smaller Z*) is removed, requiring less energy This small “dip” in the increasing trend occurs between the other Group 2A and Group 3A elements

Exceptions to the trend (First Ionization Energy) Oxygen’s first ionization energy < Nitrogen Electrons are assigned to separate p-orbitals (minimizing the force of repulsion) in elements of Group 3A~5A, like nitrogen In elements of Group 6A, such as oxygen, the paired electrons increase repulsion, leading for easier removal But beyond the first pair, Z* outweighs electron repulsion and the increasing trend continues for Group 7A and on

Second, Third, Fourth ionization energies… and beyond! Elements form ions with different charges because of ionization energies! Notice the huge differences between the first and second IE’s of Na, the second and third IE’s of Mg, and so on

Second, Third, Fourth ionization energies… and beyond! Removing the one electron from Na’s 3s-orbital doesn’t require much energy, but breaking into the filled 2p-orbital will require much, much more! The same huge jump occurs after removing the 3s2 electrons from Mg and the 3s2 and 3p1 electrons from Al The enormous gap between higher ionization energies explains why Main Group element ions have the same charge as you go down the group

That’s all folks!