Question: How do we use the model of the electronic structure of the atom to understand periodic trends of the elements?

Similar documents
John Gelder 7/14/17 1 Periodicity Activity

Name(s) with Lab section in Group. How do we use the model of the electronic structure of the atom to understand periodic trends of the elements?

Figure I. A. Look at the atomic sizes shown in the table and describe all the trends that you see in the space below.

Why is it called a periodic table?

Chapter 7. Generally, the electronic structure of atoms correlates w. the prop. of the elements

Trends in Atomic Size. Atomic Radius-one half the distance between the nuclei of two atoms of the same element when the atoms are joined

CHAPTER 6. Chemical Periodicity

Periodic Trends (Section 5.3)

4 Periodic Trends. 1.Atomic Radii (AR) 2.Ionization Energy (IE) 3.Ionic Radii (IR) 4.Electronegativity (EN) Periodic Trends > Types of Periodic Trends

Periodic Relationships

Average values of the Duration of Electronic Transitions

Periodic Trends 12/7/14 6.3

Chapter 7. Electron Configuration and the Periodic Table

Periodic Relationships

Sparks CH301 EFFECTIVE NUCLEAR CHARGE AND PERIODIC TRENDS. Why is strontium so dangerous? UNIT 2 Day 5

PowerPoint to accompany. Chapter 6. Periodic Properties of the Elements

Trends in the Periodic Table

Shielding & Atomic Radius, Ions & Ionic Radius. Chemistry AP

Explaining Periodic Trends. Saturday, January 20, 18

Periodic Properties of the Elements

Honors Chemistry. If an element has a LOW ionization energy, what does that tell you about its tendency to lose electrons?

Chemical Periodicity. Periodic Table

Ch. 5 - The Periodic Table

Na Mg Al Si P S Cl Ar

Periodic Trends. 1. (#2 3a) I can determine how gaining or losing electrons affects the atomic

1. Atomic and Ionic radius 2. Ionization energy 3. Electronegativity 4. Electron Affinity PERIODIC TRENDS

1. The mass number of the atom is the total number of &. 2. What are the three particles in an atom and what is each of their charges?

Hydrogen (H) Nonmetal (none)

Electron Configurations and the Periodic Table

Chapter 7 Electron Configuration and the Periodic Table

Topic : Periodic Trends

Explaining Periodic Trends

Electron Configuration and Periodic Trends - Chapter 5 section 3 Guided Notes

8.6,8.7 Periodic Properties of the Elements

Periodic Trends. Name: Class: Date: ID: A. Matching

Periodic Trends. 1. (#2 3a) I can determine how gaining or losing electrons affects the atomic

number. Z eff = Z S S is called the screening constant which represents the portion of the nuclear EXTRA NOTES

Chapter 5 - The Periodic Law

7.10: History of the Periodic Table

Chapter 7 Electron Configuration and the Periodic Table

Chapter 6 The Periodic Table The how and why History. Mendeleev s Table

Chemical symbols. Know names and symbols of elements #1 30, plus. Rb, Cs, Sr, Ba, Ag, Au, Cd, Hg, Pt, Ga, Ge, As, Sn, Pb, Se, Br, I, and U

Supplemental Activities. Module: Atomic Theory. Section: Periodic Properties and Trends - Key

Chapter 1 Basic Concepts: Atoms

Chapter Seven Learning Objectives. Developing the Periodic Table

Name Date Class ORGANIZING THE ELEMENTS

Atomic Radius. Half of the distance between two bonding atoms nuclei

AS VII Periodic Trends

Chem 115: Chapter 9 Dr. Babb

Name: Block: Date: Atomic Radius: the distance from the center of the nucleus to the outer most electrons in an atom.

Unit III. Chemical Periodicity

Topic 3 Periodicity 3.2 Physical Properties. IB Chemistry T03D02

Dr. Williamson s Notes for Atoms Continued

Periodic Trends. The trends we will study all have to do with the valence electrons in one way or another. Two key ideas:

Atomic Theory and Periodic Trends Practice AP Chemistry Questions

Electron Configuration and Chemical Periodicity

October 05, Periodic_Trends_Presentation student notes.notebook. Periodic Trends. Periodic Trends: Effective Nuclear Charge

Periodic Trends. Elemental Properties and Patterns

Mendeleev (1 st Periodic Table) Mid-1800 s, studied the atomic masses of elements and listed them in columns. He noticed similar physical and

Periodic Trends. Atomic Radius: The distance from the center of the nucleus to the outer most electrons in an atom.

Periodic Trends. Elemental Properties and Patterns

CHEMISTRY Topic #1: Atomic Structure and Nuclear Chemistry Fall 2017 Dr. Susan Findlay See Exercise 5.3

Section 7 iclicker questions

2011 CHEM 120: CHEMICAL REACTIVITY

Summation of Periodic Trends

Summation of Periodic Trends Factors Affecting Atomic Orbital Energies

Copyright 2018 Dan Dill 1

Chapter 5 Notes Chemistry; The Periodic Law The Periodic Table The periodic table is used to organize the elements in a meaningful way.

Unit 2 Part 2: Periodic Trends

A few elements, including copper, silver, and gold, have been known for thousands of years

Chapter 6 The Periodic Table

- Chapter 7 - Periodic Properties of the Elements

Chemical Bonding. Nuclear Charge. Nuclear Charge. Trends of the Periodic Table. Down the Table (from Top to Bottom):

Chapter 7 The Structure of Atoms and Periodic Trends

Chapter 7. Periodic Properties of the Elements

Periodic Relationships Among the Elements

CHAPTER 6 The Periodic Table

Periods: horizontal rows (# 1-7) 2. Periodicity the of the elements in the same group is explained by the arrangement of the around the nucleus.

Chapter 6: The Periodic Table. Section 6.1: Organizing the elements

Chapter 4. Periodic Trends of the Elements. Chemistry: Atoms First Second Edition Julia Burdge & Jason Overby

Periodic Trends. Elemental Properties and Patterns

Problems with the Wave Theory of Light (Photoelectric Effect)

Electron configurations follow the order of sublevels on the periodic table.

Electron Configurations

Chapter 6: Periodic Trends

Periodic Relationships Among the Elements

Lab #10 Atomic Radius Rubric o Missing 1 out of 4 o Missing 2 out of 4 o Missing 3 out of 4

Chapter 8. Mendeleev. Mendeleev s Predictions. Periodic Properties of the Elements

Periodic Variations in Element Properties

Atomic Structure. Ch 3 Prentice Hall

Unit 2 - Electrons and Periodic Behavior

A. Correct. Sodium (on the far left) has the largest atomic radius, since the atomic radius decreases from left to right across the periodic table.

Topic 3: Periodicity OBJECTIVES FOR TODAY: Fall in love with the Periodic Table, Interpret trends in atomic radii, ionic radii, ionization energies &

Electronic Structure and Bonding Review

Ch. 7- Periodic Properties of the Elements

CHAPTER NOTES CHAPTER 14. Chemical Periodicity

Chapter 5 The Periodic Law

Chapter 7 Periodic Properties of the Elements

Quiz 2/ A/ How many orbitals are possible for n=3? B/ How many orbital nodes do 2S,3P,4d and 5f orbitals exhibit? 11/11/2016 Dr. Mohammed H.

CHEM 103 CHEMISTRY I

Transcription:

Chemistry: Periodicity Activity Names Question: How do we use the model of the electronic structure of the atom to understand periodic trends of the elements? I. Data Collection Using a web browser access the following address: http://www.chem.iastate.edu/group/greenbowe/sections/projectfolder/flashfiles/matters/periodictbl2.html When the animation starts you will see Figure I below: Figure I 1. Using the mouse, click on an atom in the row of atoms above the periodic table and drag them to their respective location in the periodic table. II. Data Analysis and Interpretation 1. Select one of the Groups (1, 2, 16 or 17) in Atom View and complete the following the Table below: After completing Table I. answer questions 2-4 below. 2. Which columns (c h) in Table I do not correlate to trend in atomic radii observed in your group? Explain. 3. Which columns (c h) in Table I correlate to the trends in atomic radii observed in your group? Explain.

4. Write a general statement that explains the trend in atomic radius that applies to any Group in the III. Data Analysis and Interpretation 1. Select one of the periods in the atom view and complete the table below. After completing Table II. answer questions 2-4 below. 2. Which columns (c h) in Table II do not correlate to the trend in atomic radii observed in your period? Explain 3. Which columns (c h) in Table II directly correlate to the trend in atomic radii observed in your period? Explain 4. Write a general statement that explains the trend in atomic radius that applies to any period in the Periodic Table. IV. Data Analysis and Interpretation Effective nuclear charge (Z eff ) is a term used to describe the amount of nuclear charge experienced by a particular electron in an atom. Nuclear charge is the total positive charge in the nucleus. For example the nuclear charge for a carbon atom is +6. The nuclear charge is equivalent to the atomic number for an element. Carbon has six protons so consider the following information;

Z eff is calculated by using Slater s Rule. We predict that inner core electrons reduce total nuclear charge by shielding the last electron. The equation for calculating Z eff : Z eff Z, where shielding is calculating using Slater s Rule and the shielding potentials of inner core electrons. 1. Transfer columns (a h) from Table I and Table II into Table III below. 2. Complete column (i) in Table IV for each element by calculating Z eff for each. 3. In the space below show the calculation for Z eff for any two of the elements in Table III. After completing Table III. Answer questions 4 & 5 below. 4. Is there a relationship between Z eff and the trend in atomic radius for the elements in the Group from Table I? Explain. 5. Is there a relationship between Z eff and the trend in atomic radius for the elements in the period from Table II? Explain.

V. Data Collection Switch to the Ion View. Figure II. 1. Using the mouse, click on an ion in the row of ions above the periodic table and drag them to their respective location in the periodic table. 2. Describe the relationship between the change in electrons (gained or lost) and the charge of the ion that results. VI. Data Analysis and Interpretation 1. Using the atomic and ion size information from Figure I and Figure II. select one metal from Group 1 or 2 and select one nonmetal from Group 16 or 17 and complete Table IV. In Table IV enter the metal you selected in the first row and complete the row of information. In the next row below enter the cation for that metal and complete the information in the row. Do the same for the nonmetal you selected. After completing Table IV. Answer questions. 2. In general what is the relationship between the radius for the neutral metal atom and its cation?

3. In general what is the relationship between the radius for the neutral nonmetal atom and its anion? 4. Write a general statement that explains the trend in radius between a metal atom and its ion that applies to any combination of metal and its cation. 5. Write a general statement that explains the trend in radius between a nonmetal atom and its anion that applies to any combination of nonmetal atom and its anion. 6. Complete the Table below. 7. Isoelectric ions are ions that have the same electron configurations. Write a general statement that explains the trend in ion radius that applies to a related (isoelectronic) set of ions in the Periodic Table.

2024 © sciencedocbox.com Privacy Policy | Terms of Service | Feedback