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Page 1: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Alchemy Unit

Investigation III: A Particulate WorldLesson 1: Pudding and Clouds Lesson 2: Building Atoms

Lesson 3: Subatomic HeavyweightsLesson 4: Life on the EdgeLesson 5: Shell GameLesson 6: Go FigureLesson 7: Technicolor Atoms

Page 2: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Alchemy Unit – Investigation III

Lesson 1:

Pudding and Clouds

Page 3: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Unit 1 • Investigation III

© 2004 Key Curriculum Press.

ChemCatalyst

In the 5th century BCE a Greek philosopher named Leucippus and his student, Democritis, stated, “All matter is made up of particles that cant be divided called atoms.”

• What do you think atoms are?

Page 4: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Unit 1 • Investigation III

© 2004 Key Curriculum Press.

The Big Question

• How have chemists thought about the atom through history?

Page 5: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Unit 1 • Investigation III

© 2004 Key Curriculum Press.

You will be able to:

• Describe some models of an atom and explain how they differ.

Page 6: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Unit 1 • Investigation III

© 2004 Key Curriculum Press.

• Atoms are extremely small particles, which cannot be seen, even with microscopes.

• All matter is made up of atoms.

• Scientists have created models to describe atoms. Models are similar to theories, but often include a picture or physical representation.

Notes

(cont.)

Page 7: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Unit 1 • Investigation III

© 2004 Key Curriculum Press.

• Scientific evidence is a collection of observations that many people have made. Everyone agrees on the same collection of observations.

• When a model is supported by scientific evidence it is often accepted by the scientific community.

• As new evidence is gathered, models are refined and changed.

(cont.)

Page 8: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Unit 1 • Investigation III

© 2004 Key Curriculum Press.

• A proton is a positively charged particle that exists in the nucleus.

• A neutron is a neutral particle with no charge on it that exists in the nucleus

• The electron is a negatively charged particle that exists in an electron cloud around the nucleus.

Parts of the Atom

(cont.)

Page 9: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Unit 1 • Investigation III

© 2004 Key Curriculum Press.

• An atom is mostly empty space.

• There is the nucleus, which is located in the very center of the atom.

• The nucleus is very small. .

• The nucleus is also very dense and consists of two types of particles—neutrons and protons.

(cont.)

The Nucleus

Page 10: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Unit 1 • Investigation III

© 2004 Key Curriculum Press.

Electron Cloud

A cloud around the nucleus where the electrons can be found.

Page 11: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Unit 1 • Investigation III

© 2004 Key Curriculum Press.

Notes (cont.)

Page 12: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Unit 1 • Investigation III

© 2004 Key Curriculum Press.

Activity

Purpose: This lesson will introduce you to various models for the atom that have appeared over the past two hundred years. The descriptions of five models of the atom are on a separate handout.

(cont.)

Page 13: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Theories of the Atom

The History of the Atom

Page 14: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Unit 1 • Investigation III

© 2004 Key Curriculum Press.

John Daltons Theory

Matter is made of atoms

Atoms can not be divided into smaller pieces

Page 15: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Unit 1 • Investigation III

© 2004 Key Curriculum Press.

Different elements are made of different kinds of atoms

All atoms of an element are exactly alike

Page 16: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Unit 1 • Investigation III

© 2004 Key Curriculum Press.

John Dalton

John Dalton thought that atoms looked like solid spheres.

Page 17: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Unit 1 • Investigation III

© 2004 Key Curriculum Press.

J.J. Thomson

Thought that the atom is a sphere of positive charge with negative charges spread equally throughout. Therefore, atoms have a neutral charge.

Page 18: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Unit 1 • Investigation III

© 2004 Key Curriculum Press.

Ernest Rutherford

Thought that the atom had a nucleus (center) that was all positive charge and electrons (negative) that float around it.

Page 19: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Unit 1 • Investigation III

© 2004 Key Curriculum Press.

Neil Bohr

Atoms have three particles protons, neutrons and electrons. Electrons exist in shells or energy levels around the nucleus.

Page 20: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Unit 1 • Investigation III

© 2004 Key Curriculum Press.

Current Nuclear Model

Atoms has three types of particles and the electrons exist in an electron cloud.

Protons (positive)

Neutrons (neutral)

Electrons (negative)

Page 21: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Unit 1 • Investigation III

© 2004 Key Curriculum Press.

Making Sense

• From Pudding & Clouds: Examine the date of the atomic evidence and then put the five models in the correct order of their introduction to the world of science.

Page 22: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Unit 1 • Investigation III

© 2004 Key Curriculum Press.

Five Models of the Atom

(cont.)

Page 23: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Unit 1 • Investigation III

© 2004 Key Curriculum Press.

Check-OutHere is a Bohr model of a carbon atom.

• List two things this model tells you about atoms.

• List something this model does not tell you about atoms.

Page 24: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Unit 1 • Investigation III

© 2004 Key Curriculum Press.

History of the Atom Foldable

Create a tri-fold with the following information:

1. Each Scientists idea of the atom including the persons name, description of what they thought and a picture of their idea of the atom.

2. Must be colorful and displayable!

3. Will be collected and graded!!

Page 25: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Unit 1 • Investigation III

© 2004 Key Curriculum Press.

Wrap-Up

• All matter is made up of extremely small particles called atoms. These particles are too small to be seen even with a microscope.

• Science is theoretical and dynamic. Models and theories are continually being revised, refined, or replaced with new models and theories.

Page 26: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Alchemy Unit – Investigation III

Lesson 2:

Building Atoms

Page 27: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Unit 1 • Investigation III

© 2004 Key Curriculum Press.

Copy these questions into your journal.

• Look at the following pictures and list three similarities and three differences.

Page 28: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Unit 1 • Investigation III

© 2004 Key Curriculum Press.

ChemCatalyst

A Bohr model of a helium atom and a beryllium atom are given below.

Helium, He Berylium, Be

(cont.)

Page 29: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Unit 1 • Investigation III

© 2004 Key Curriculum Press.

The Big Question

• What does the periodic table tell us about the structures of different atoms?

Page 30: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Unit 1 • Investigation III

© 2004 Key Curriculum Press.

You will be able to:

• Use the periodic table to identify the properties of an elements atom.

Page 31: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Unit 1 • Investigation III

© 2004 Key Curriculum Press.

• Atomic number is the number of protons in the nucleus of an atom. This number is above the chemical symbol.

• The number of electrons is always equal to the number of protons in a neutral atom.

• Ex. Lithium has 3 protons, therefore it also has 3 electrons

Atomic Number

Page 32: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Unit 1 • Investigation III

© 2004 Key Curriculum Press.

• Mass number is the number of

protons plus the number of neutrons. • You can find this by rounding the

number beneath the chemical symbol.• Also referred to as atomic mass

because it is the mass of one atom of the element.

Mass Number

Page 33: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Unit 1 • Investigation III

© 2004 Key Curriculum Press.

Atomic Weight

1. Atomic Weight is the decimal number that is found beneath the chemical symbol for an element.

2. It is an average of all the different types of atoms for that element.

Page 34: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Unit 1 • Investigation III

© 2004 Key Curriculum Press.

Calculating the parts of the atom

Mass number (# of protons + neutrons)

minus

Atomic Number (# of protons)

____________________________

Number of neutrons

Page 35: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Unit 1 • Investigation III

© 2004 Key Curriculum Press.

How to read and use an element key

Page 36: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Unit 1 • Investigation III

© 2004 Key Curriculum Press.

Activity

Purpose: Label where the protons, neutrons and electrons are in these atoms.

Beryllium Atom Fluorine Atom Carbon Atom

(cont.)

Page 37: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Unit 1 • Investigation III

© 2004 Key Curriculum Press.

element chemical symbol

atomic number

# of protons

# of electrons

# of neutrons

mass number

atomic weight

beryllium 5

fluorine 10

6 12

chlorine 18 35.45

lead 126

potassium 19 39

tin 70

tungsten 184 183.85

29 36

gold 118

(cont.)

Page 38: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Unit 1 • Investigation III

© 2004 Key Curriculum Press.

Making Sense

• If you know the atomic number of an element, what other information can you figure out about the atoms of that element?

• If you know the atomic number of an element, can you figure out how many neutrons an atom of that element has? Can you come up with a close guess? Explain.

Page 39: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Unit 1 • Investigation III

© 2004 Key Curriculum Press.

Check-Out

1. Use your periodic table to identify the following elements:

a) Atomic number 18

b) Has three electrons

c) Atomic mass of 16.0

2. How do you think a gold atom is different from a copper atom?

Page 40: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Unit 1 • Investigation III

© 2004 Key Curriculum Press.

Wrap-Up

• Each successive element has one more proton than the element preceding it.

• The atomic number is equal to the number of protons.

(cont.)

Page 41: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Unit 1 • Investigation III

© 2004 Key Curriculum Press.

• The number of electrons is equal to the number of protons (as long as the atom is neutral).

• The mass number is equal to the number of protons plus the number of neutrons (most of the mass is found in the nucleus).

(cont.)

Page 42: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Alchemy Unit – Investigation III

Lesson 3:

Subatomic Heavyweights

Page 43: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Unit 1 • Investigation III

© 2004 Key Curriculum Press.

(Copy these questions into your journal)

• What is different about the two atoms?

• What is the atomic number of each atom?

• What is the mass number of each atom?

• Do you think they are both lithium atoms? Why or why not?

Page 44: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Unit 1 • Investigation III

© 2004 Key Curriculum Press.

Use these pictures to answer the previous questions. A chemist investigating a sample of lithium found that some atoms have a lower mass than other atoms. The chemist determined that the structures of the two types of atoms would be similar to the two drawings below.

(cont.)

Page 45: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Unit 1 • Investigation III

© 2004 Key Curriculum Press.

The Big Question

• How do isotopes of an atom account for the atomic weight of an element?

Page 46: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Unit 1 • Investigation III

© 2004 Key Curriculum Press.

You will be able to:

• Predict the isotopes of an element.

Page 47: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Unit 1 • Investigation III

© 2004 Key Curriculum Press.

• Atoms of the same element that have different numbers of neutrons are called isotopes.

• Atomic mass units (amu) are “invented” measurement units of the atomic mass.

Notes

Page 48: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Unit 1 • Investigation III

© 2004 Key Curriculum Press.

• While the element iron is defined as being made up of neutral atoms with 26 protons and 26 electrons, not every iron atom has the same number of neutrons.

• Atoms that have the same number of protons but different numbers of neutrons are called isotopes.

Notes

(cont.)

Page 49: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Unit 1 • Investigation III

© 2004 Key Curriculum Press.

• What we call the atomic weight on the periodic table is actually the average atomic mass of that element’s naturally occurring isotopes.

• Isotopes have similar chemical properties in that they combine with other elements to form similar compounds.

Notes (cont.)

(cont.)

Page 50: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Unit 1 • Investigation III

© 2004 Key Curriculum Press.

• Atomic Weight is the weighted average of the atomic masses of different isotopes taking into account their abundance.

(cont.)

(cont.)

Page 51: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Unit 1 • Investigation III

© 2004 Key Curriculum Press.

(cont.)

Page 52: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Unit 1 • Investigation III

© 2004 Key Curriculum Press.

Activity

Purpose: In this lesson you will investigate isotopes and how they affect atomic weight.

(cont.)

Page 53: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Unit 1 • Investigation III

© 2004 Key Curriculum Press.

boron atom

1 2 3 4 5 6 7 8 9 10

# protons

# neutrons

# electrons

(cont.)

(cont.)

Page 54: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Unit 1 • Investigation III

© 2004 Key Curriculum Press.

Element Chemical Symbol

Atomic Number

Atomic Weight

# of protons

# of electrons

# of neutrons

Boron B 5 or 6

Chlorine 17

Lithium 6.94

Vanadium V 23

Nitrogen 7

Magnesium

Argon Ar 39.9 21 or 22

(cont.)

Page 55: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Unit 1 • Investigation III

© 2004 Key Curriculum Press.

Check- Out

• Predict the isotopes of carbon, C. Which isotope is more abundant? How do you know?

• Explain why the atomic weights listed in the periodic table are not usually whole numbers.

Page 56: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Unit 1 • Investigation III

© 2004 Key Curriculum Press.

Wrap-Up

• Elements may have anywhere from 2 to 10 naturally occurring isotopes.

• The atomic weight of an element listed on the periodic table is actually the average mass of the naturally occurring isotopes of that element.

• Isotopes have the same number of protons and electrons, but different numbers of neutrons. (cont.)

Page 57: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Unit 1 • Investigation III

© 2004 Key Curriculum Press.

• Isotopes of a single element exhibit similar properties in that they form similar compounds.

• Isotopes are referred to by their mass numbers.

(cont.)

Page 58: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Alchemy Unit – Investigation III

Lesson 4:

Life on the Edge

Page 59: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Unit 1 • Investigation III

© 2004 Key Curriculum Press.

ChemCatalyst

The three atoms below have similar reactivity and chemical behavior.

• Where are these elements located on the periodic table?

• What do you think might be responsible for their similar properties?

(cont.)

Page 60: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Unit 1 • Investigation III

© 2004 Key Curriculum Press.

(cont.)

Page 61: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Unit 1 • Investigation III

© 2004 Key Curriculum Press.

The Big Question

• What accounts for the similar chemistry of elements in the same group?

Page 62: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Unit 1 • Investigation III

© 2004 Key Curriculum Press.

You will be able to:

• Give the number of valence electrons for an element.

Page 63: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Unit 1 • Investigation III

© 2004 Key Curriculum Press.

Activity

Purpose: The various physical and chemical properties of the elements can be traced to the electrons. By studying electrons further we may be able to unlock the key to creating substances similar to gold. This lesson will reveal the arrangement of electrons within atoms.

Page 64: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Unit 1 • Investigation III

© 2004 Key Curriculum Press.

Five Models of the Atom

(cont.)

Page 65: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Unit 1 • Investigation III

© 2004 Key Curriculum Press.

Making Sense

• Explain how you can determine the arrangement of an element’s electrons, from the element’s position on the periodic table.

Page 66: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Unit 1 • Investigation III

© 2004 Key Curriculum Press.

• Bohr proposed that electrons could be found in different shells around the nucleus.

Notes

Page 67: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Unit 1 • Investigation III

© 2004 Key Curriculum Press.

(cont.)

(cont.)

Page 68: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Unit 1 • Investigation III

© 2004 Key Curriculum Press.

• The outermost shell of each drawing is called the valence shell.

• The valence shell contains the valence electrons.

• All other electrons are considered core electrons.

(cont.)

Page 69: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Unit 1 • Investigation III

© 2004 Key Curriculum Press.

Check-In

Provide the following information for element number 34.

a) The element’s name and symbol.

b) The number of protons in the nucleus.

c) The total number of electrons for this element.

d) The number of core electrons for this element.

(cont.)

Page 70: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Unit 1 • Investigation III

© 2004 Key Curriculum Press.

e) The number of valence electrons.

f) The group number for this element.

g) The names of other elements with similar chemistry.

(cont.)

Page 71: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Unit 1 • Investigation III

© 2004 Key Curriculum Press.

Wrap-Up

• Electrons occupy different shells around the nucleus of an atom.

• Each electron shell can hold a specific maximum number of electrons.

• The valence electrons are in the outermost electron shell of an atom. Electrons that are not valence electrons are called core electrons.

(cont.)

Page 72: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Unit 1 • Investigation III

© 2004 Key Curriculum Press.

• Elements with the same number of valence electrons have similar chemistry and are in the same group.

Page 73: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Alchemy Unit – Investigation III

Lesson 5:

Shell Game

Page 74: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Unit 1 • Investigation III

© 2004 Key Curriculum Press.

ChemCatalyst

The two drawings show two ways of representing the electron arrangement of the element calcium, Ca.

• Name at least two differences.

• Name at least two similarities.

1s2s

2pp

3sp3pp3d

4sp

4pp12

34

Page 75: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Unit 1 • Investigation III

© 2004 Key Curriculum Press.

The Big Question

• How do electron subshells relate to the periodic table?

Page 76: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Unit 1 • Investigation III

© 2004 Key Curriculum Press.

You will be able to:

• Identify an element based on its electron configuration.

Page 77: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Unit 1 • Investigation III

© 2004 Key Curriculum Press.

• Electron shells are divided into electron subshells.

Notes

Page 78: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Unit 1 • Investigation III

© 2004 Key Curriculum Press.

Activity

Purpose: This lesson introduces you to electron subshells. You will explore how they are related to the periodic table.

(cont.)

Page 79: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Unit 1 • Investigation III

© 2004 Key Curriculum Press.

1s2s

2pp

3sp3pp3d

4sp

4pp

(cont.)

Page 80: Alchemy Unit Investigation III: A Particulate World Lesson 1: Pudding and Clouds Lesson 2: Building Atoms Lesson 3: Subatomic Heavyweights Lesson 4: Life

Unit 1 • Investigation III

© 2004 Key Curriculum Press.

Electron configuration Element

1s22s1

1s22s22p3 nitrogen, N

1s22s22p63s23p5

1s22s22p63s23p64s23d6

1s22s22p63s23p64s23d104p2

1s22s22p63s23p64s23d104p65s24d105p4 tellurium,Te

(cont.)

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Unit 1 • Investigation III

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Making Sense

• How is the organization and structure of the periodic table related to electron subshells?

(cont.)

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Unit 1 • Investigation III

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(cont.)

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Unit 1 • Investigation III

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• An electron configuration is a list of all the subshells that have electrons for a given element. The number of electrons in a subshell is specified as a superscripted number.

Notes

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Unit 1 • Investigation III

© 2004 Key Curriculum Press.

Check-In

• Identify the element with the following electron configuration.

1s22s22p63s23p64s23d104p3

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Unit 1 • Investigation III

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Wrap-Up

• Electron shells can be divided further into subshells, referred to as; s, p, d, f.

• Each subshell can hold a specific maximum number of electrons. The s subshell can hold 2 electrons, the p subshell can hold 6, the d subshell can hold 10 electrons, and the f subshell can hold 14.

(cont.)

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Unit 1 • Investigation III

© 2004 Key Curriculum Press.

• The periodic table can assist us in figuring out the sequence of filling the subshells with electrons.

• Chemists keep track of electrons and the subshells they are in by writing electron configurations.

(cont.)

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Alchemy Unit – Investigation III

Lesson 6:

Go Figure

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Unit 1 • Investigation III

© 2004 Key Curriculum Press.

ChemCatalyst

Consider the following electron configuration:

1s22s22p63s23p64s23d104p4

• What element do you think is represented by this electron configuration?

• How many valence electrons do you think this element has? Explain your reasoning.

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Unit 1 • Investigation III

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The Big Question

• Where are the valence electrons in electron configurations?

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Unit 1 • Investigation III

© 2004 Key Curriculum Press.

You will be able to:

• Write electron configurations and name valence electrons for an element.

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Unit 1 • Investigation III

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Activity

Purpose: This activity teaches you a shorthand way to keep track of electron arrangements and how to identify valence electrons.

(cont.)

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Unit 1 • Investigation III

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Element Electron configuration No. of valence

electrons

Identity of valence

electrons

1s22s22p3 5 2s22p3

1s22s22p63s23p1

1s22s22p63s23p64s23d2 2 or 4 4s23d2

1s22s22p4

Chlorine

1s22s22p63s23p64s23d104p65s1

Barium

(cont.)

(cont.)

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Unit 1 • Investigation III

© 2004 Key Curriculum Press.

Element Electron configuration No. of valence

electrons

Identity of valence

electrons

1s22s22p63s23p64s23d104p65s24d105p6

Silver 1 or 2 5s2

Potassium

Mercury 2 6s2

Terbium 2 6s2

Chromium 2,3,4,5,6 4s23d4

(cont.)

(cont.)

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Unit 1 • Investigation III

© 2004 Key Curriculum Press.

Element Electron configuration Valence electrons

Lithium, Li [He] 2s1 2s1

Potassium, K [Ar] 4s1 4s1

Scandium, Sc [Ar] 4s23d1 4s2 3d1

Zinc, Zn [Ar] 4s23d10 4s2

(cont.)

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Unit 1 • Investigation III

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Making Sense

• If you know the electron configuration of an element, what other information can you figure out? List at least six things.

(cont.)

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Unit 1 • Investigation III

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Unit 1 • Investigation III

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Check-In

• Write the electron configuration for bromine, Br.

• Write the noble gas electron configuration for Br.

• How many valence electrons does Br have? Explain.

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Unit 1 • Investigation III

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Wrap-Up

• The noble gases can be used as placeholders in the periodic table when writing electron configurations.

• In the d-block or transition elements we find some exceptions to the rules when determining valence electrons.

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Alchemy Unit – Investigation III

Lesson 7:

Technicolor Atoms

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Unit 1 • Investigation III

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ChemCatalyst

The ancient alchemists heated atoms to try to change them into gold. Knowledge of atomic structure assists us in figuring out what parts of an atom can be changed.

• Let’s say we started with a lithium atom and changed different parts of the atom. Look at the lithium atom below and four possible changes to it. What would we end up with in each case? (cont.)

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Unit 1 • Investigation III

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Unit 1 • Investigation III

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The Big Question

• What part of the atom is changed by heating?

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Unit 1 • Investigation III

© 2004 Key Curriculum Press.

You will be able to:

• Predict the color of the flame produced when heating a substance.

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Unit 1 • Investigation III

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Activity

Purpose: In this activity you will observe evidence that atomic structure is changed when atoms are heated.

(cont.)

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Unit 1 • Investigation III

© 2004 Key Curriculum Press.

Safety Note:

• Tie back long hair.

• Keep long sleeves and clothing away from the flames.

(cont.)

(cont.)

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Unit 1 • Investigation III

© 2004 Key Curriculum Press.

Note: Do not exchange wires. For each solution, only use the wire that is already in that solution. After you use the wire, be sure to put it back in the solution from which it came.

(cont.)

(cont.)

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Unit 1 • Investigation III

© 2004 Key Curriculum Press.

Substance Name Color of Flame

sodium carbonate

potassium nitrate

copper nitrate

strontium nitrate

potassium chloride

sodium chloride

copper sulfate

strontium chloride

sodium nitrate

potassium sulfate

copper wire

copper penny

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Unit 1 • Investigation III

© 2004 Key Curriculum Press.

Making Sense

• The yellow color of the flame for sodium indicates that the sodium atoms changed in some way when they were heated. Consider the following possibility that the electron configuration of sodium changed from [Ne]3s1 to [Ne]4p1. What is the difference between [Ne]3s1 and [Ne]4p1? (Are the total number of electrons the same? Are the electrons in the same locations?) (cont.)

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Unit 1 • Investigation III

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• Do you think gold can be made by changing the arrangement of electrons in atoms? Explain.

(cont.)

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Unit 1 • Investigation III

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Blue/Greencopper nitratecopper sulfatecopper solidcopper penny

Redstrontium nitrate

strontium chloride

Yellow/Orangesodium carbonate

sodium chloride

sodium nitrate

Pink/Lilacpotassium nitrate

potassium chloride

potassium sulfate

Notes

(cont.)

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Unit 1 • Investigation III

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Notes (cont.)

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Unit 1 • Investigation III

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Check-In

• Predict the colors of the flames produced when heating the following substances. Explain your thinking.

Copper carbonate

Magnesium sulfate

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Unit 1 • Investigation III

© 2004 Key Curriculum Press.

Wrap-Up

• Electrons can move between subshells within an atom.

• An energy exchange occurs when electrons move farther away from the nucleus, or when they return to their original subshell.

• Moving electrons within an atom does not change the identity of the atom.