Catalyst 1.Open up the Bohr’s Model educanon video for today’s class. Complete the questions associated with the video. 2.Put your laptop at 45 degrees.

Slides:

Advertisements

Similar presentations

Trends of the Periodic Table

Advertisements

Periodic Trends Mrs. Coyle Chemistry.

Periodic Trends Models of the Atom Orbitals Electron Configuration Valence Electrons

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.

Aim: What are the Properties of Groups and how does the atomic radius change across a period and down a group ? DO Now: 1. Write down the electron configuration.

Catalyst: The Springfield Nuclear Power Plant has discovered a new element called Homerium (Hm). Element Homerium (Hm) is located between sodium (Na) and.

Catalyst 1. Order the following elements from smallest electronegativity to largest ionization energy: Aluminum, Silicon, Phosphorous. 2. Why does Germanium.

Catalyst 1.What would J.J. Thomson say to Dalton to prove that his plum pudding model is superior? 2.What would Ernest Rutherford say to J.J. Thomson.

Catalyst 9/6/13 On your Catalyst Sheet, please answer the following questions: 1. What happens to electronegativity (EN) or ionization energy (IE) as you.

December 9th Quick Write: 1.Place Study Guide Packet on your desk to be checked during the Quick Write. 2.Why did the measurement of 25mL of water and.

Periodic Table Trends. Metallic character Metallic Character Depends on how readily the element gives up their valence e-’s.

Periodic Trends. Periodic Trends Overview For each of the four trends (atomic radius, ionization energy, reactivity, electronegativity) You need to know:

WELCOME!! 1. Please be in your seats by the time the bell rings. 2. On your catalyst sheet you should be on October November 4 th.

Catalyst 1. What are the trends for ionization energy? Why do these trends exist? 2. As you go across a period, do elements get better or worse at attracting.

Periodic Table Trends.

Section 5.3 – Electron Configuration and Periodic Properties

Catalyst 9/4/13 On your Catalyst Sheet, please answer the following questions: 1. What happens to ionization energy as you go down a group? 2. Sort from.

Catalyst 1. List an element from the following groups: alkali, alkaline earth metal, transition metal, halogen, and Noble gas. 2. Why do different groups.

Catalyst 1. List an element from the following groups: alkali, alkaline earth metal, transition metal, halogen, and Noble gas. 2. Why do different groups.

Bell work: Think about what we did on Friday. Explain what an “energy level” is. Is it related to electron shells? What happens when an electron “drops.

After today, you will be able to… Explain the periodic trend for ionic size and electronegativity Compare the size of cations to the size of anions.

 In general, as we go across a period from left to right, the first ionization energy increases.  Why?  Electrons added in the same principal quantum.

Periodic Trends 6.3.

The Periodic Table.

Periodic Trends Section 6.3

Periodic 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.

Periodic Trends.

Catalyst 1. List an element from the following groups: alkali, alkaline earth metal, transition metal, halogen, and Noble gas. 2. Why do different groups.

Periodic Trends. Atomic Radius Defined as half of the distance between two bonding atoms nuclei.

Catalyst IN YOUR JOURNAL! 1. What are the two subatomic particles found in the nucleus? 2. What is the charge of a proton? An electron? 3. How do you.

Do Now Which list includes elements with the most similar chemical properties? Br, Ga, Hg Cr, Pb, Xe O, S, Se N, O, F.

November 28th Homework: read pgs Take the two worksheets.

LENSES TO PERIODIC TRENDS. There are 3 major lenses through which advanced Chemistry explains the periodic trends in the groups and periods of the Periodic.

Catalyst 1. List an element from the following groups: alkali, alkaline earth metal, transition metal, halogen, and Noble gas. 2. Why do different groups.

Periodic Trends There are several important atomic characteristics that show predictable trends. Atomic radius Ionization energy Electron affinity Electronegativity.

Periodic Trends. Atomic Radius Defined as half the distance between the nuclei of two atoms Going across the periodic table ◦ But why are they smaller.

Periodic Trends.

Periodic Trends Chemistry 5(C). Learning objectives Use the periodic table to identify and explain trends in – Atomic and ionic radii – Electronegativity.

Aim: What are the Properties of Groups and how does the atomic radius change across a period and down a group ? Do Now: 1. Take out your periodic tables.

I II III Periodic Trends. Valence Electrons  Electrons available to be lost, gained, or shared in the formation of chemical compounds  Outer energy.

PERIODIC PATTERNS Unit 3 – Periodic Table. What patterns exist on the periodic table? Lesson Essential Question:

Periodic Trends. Organization… When Mendeleev organized his table, he saw that ___________ showed up at regular intervals, called ________. properties.

Section 3: Periodic Trends. Nuclear Charge Nuclear charge is the pull that an electron “feels” from the nucleus. The closer an electron is to the nucleus,

Atomic Structure and Theory Scientists What’s the Matter?

Periodic Trends Learning Target: Criteria For Success:

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

 Bond radius  Ionization Energy  Electronegativity  Electron Affinity*

Trends in the Periodic Table

Historical Development of an Atom. Democritus B.C Democritus was a Greek philosopher ( B.C.) who is the father of modern atomic thought.

PERIODIC TRENDS. Periodic Law When elements are arranged in order of increasing atomic number, elements with similar properties appear at regular intervals.

Effective Nuclear Charge (Z eff ) – In a many-electron atom, each electron is attracted to the positively charged nucleus and repelled by the other negatively.

OBJECTIVES: Students will understand the Shielding Effect.

Periodic Table Metals – Left side of table Solid at room temp – Except Hg Good conductors of heat and electricity Malleable and ductile Lustrous Non-metals.

Periodic Trends. LevelPrice Red Sections & $15 Red Sections , 119, $14 Yellow Sections & $13 Yellow Sections.

Periodic Trends Modified from Mrs. Coyle Chemistry.

Atomic Theory & Periodic Table Unit 3 Part 4 (Ch. 6) Trends in Periodic Table.

Periodic Trends Notes. Starting Question Describe the periodic trends with respect to atomic mass and atomic radius.

Aim: What are the Properties of Groups and how does the atomic radius change across a period and down a group? Do Now: Answer in your notebook If an atom.

Effective Nuclear Charge!!

Write the Complete Electron Configuration for:

Periodic Trends.

End Catalyst The periodic table is arranged by what?

Periodic Table Trends SWBAT: predict the atomic radius, ionization energy, electronegativity, nuclear charge, and shielding effect of atoms based on the.

Effective Nuclear Charge!!

Atomic Radius Ionization Energy Electronegativity

Periodic Table Trends.

Aim: What are the Properties of Groups and how does the atomic radius change across a period and down a group? Do Now: Answer in your notebook Explain.

Effective Nuclear Charge!!

Presentation transcript:

Catalyst 1.Open up the Bohr’s Model educanon video for today’s class. Complete the questions associated with the video. 2.Put your laptop at 45 degrees and place your eyes on me so I know when you’re finished. End

Review - Important Point #1 The atom is mostly empty space. This is why most of the alpha particles went through The majority of the atom does not have anything in it.

Review - Important Point #2 The atom has very small, but very dense nucleus. Alpha particles that bounced back were coming into contact with nucleus. Alpha particles were deflected back because nucleus is positive.

Review - Nuclear Model

Lecture 1.7 – Bohr, Electronegativity, and Atomic Radius

Today’s Learning Targets 1.6 – I can explain the development of atomic theory incorporating the contributions of Dalton, Thomson, Rutherford, and Bohr. 1.7 – I can define electronegativity and explain how it relates to the charge of the nucleus and the electron. Furthermore, I can explain how this trend changes as you move throughout the Periodic Table. 1.8 – I can define atomic/ionic radius and explain how it relates to the charge of the nucleus and the electron. Furthermore, I can explain how this trend changes as you move throughout the Periodic Table.

Niels Bohr Refined Rutherford’s model of the atom with his discovery in 1913.

What Bohr Knew Shooting electricity through the hydrogen excited electrons. Color produced only for specific values Problem – If electrons were free to roam, then we should get all sorts of colors

Bohr’s Solution Electrons are not free to roam in the electron cloud, electrons are restricted to orbits or energy levels.

The Modern Model Rutherford ’ s space and nucleus Dalton ’ s atom Bohr ’ s energy levels Thompson ’ s electrons

SUMMARIZE

What’s More Attractive?

Magnets! How do they work?

I. Nuclear Attraction The negatively charged electrons are attracted towards the positively charged nucleus. The negatively charged electrons are attracted towards the positively charged nucleus. The more the electron “feels” the nucleus. The tighter it is held The more the electron “feels” the nucleus. The tighter it is held

II. Electronegativity Electronegativity is the measure of the ability of an atom to attract electrons.

What do the arrows represent? How does the thickness of the arrows relate to nuclear attraction? III. How does the size of the atom relate to the positive and negative charges in an atom?

a As you move from the smallest atom to the largest atom, how does the distance between the valence electrons and the nucleus change? As you move from the smallest atom to the largest atom, how does the attractive force between the valence electrons and the nucleus change? What direction does this go on the periodic table? IV. Why are the atoms getting bigger?

Electronegativity Trends As you go down a group, the electronegativity of an element decreases. As you go across a period, the electronegativity of an element increases.

Why Electronegativity Decreases Down a Group As you go down a group more orbits are added. Electron Shielding – Valence electrons become shielded from the positively charged nucleus as you add more orbits. Electroneg. decreases because there is a decreased ability of the nucleus to attract electrons because of larger distance.

Why Electronegativity Increases Across a Period As you move across a period you add more protons and electrons within the same orbit. The larger amount of protons in the nucleus and electrons in orbit show an increased attraction. This leads to increased electronegativity as you move within a period.

Class Example Order the elements from smallest to largest electronegativity: oxygen, beryllium, lithium,

Table Talk Order the elements from largest to smallest electronegativity: chlorine, bromine, fluorine

Stop and Jot Order the elements from smallest to largest electronegativity: silicon, aluminum, sulfur

SUMMARIZE

Master Chef - White Board Races

White Board Relay Race Problems 1.Which has a larger electronegativity: chlorine or silicon? 2.Which has a smaller electronegativity magnesium or calcium? 3.Put the following elements in order from smallest electronegativity to largest: B, F, N, O. 4.Put the following elements in order from smallest electronegativity to largest: N, As, Bi, P. 5.Why does bromine do a worse job of attracting electrons than fluorine?

Atomic Radius Atomic Radius – The distance from the center of the nucleus to the outermost edge of the electron cloud Outer edge of electron cloud Nucleus

Atomic Radius Trends Atomic radius increases as you go down a group on the Periodic Table. Atomic radius decreases as you go across a period on the Periodic Table

Why Atomic Radius Increases Down a Group As you add more electron shells to an element, the element becomes “bulkier”. This means that as you go down a group, more orbits are added, so the radius becomes bigger.

Why Atomic Radius Decreases Across a Period As you move across a period, more protons are added to the nucleus. Also, more electrons are added within the same orbit. This means there is a larger positive and negative charge, which results in a higher attraction and a decrease in the radius.

SUMMARIZE

Master Chef - White Board Races

Whiteboard Questions (T/F) 1.Atomic radius is the distance from the center of the nucleus to the first electron orbit. 2.Atomic radius increases across a period and down a group. 3.Atomic radius decreases down a group because you are adding more electron orbits. 4.Atomic radius decreases across a period because there are less electrons in the same orbit.

Whiteboard Questions (cont) 5. Order the following from largest to smallest atomic radius: Ca, Se, Ni 6. Order the following from largest to smallest atomic radius: O, Po, S 7. Order the following from smallest to largest atomic radius: Cs, F, Ga

Exit Ticket 1. Define atomic radius 2. Define electronegativity. 3. Order from largest to smallest electronegativity: Ca, Se, Ni 4. Order from smallest to largest atomic radius: O, Po, S

Rate Yourself Based on the exit ticket and your current level of understanding, rate yourself 1 – 4 on LT

Closing Time Practice 1.7 – Electronegativity and Atomic Radius UNIT 1 EXAM coming up soon!