define the terms: shells, sub-shells and orbitals, principal quantum number (n), ground state, limited to electronic configuration
describe the number of orbitals making up s, p and d sub-shells, and the number of electrons that can fill s, p and d sub-shells
describe the electronic configurations to include the number of electrons in each shell, sub-shell and orbital
describe the order of increasing energy of the sub-shells within the first three shells and the 4s and 4p sub-shells
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We are learning to:
determine the electronic configuration of atoms and ions given the atomic or proton number and charge, using either of the following conventions: e.g. for Fe: 1s22s22p63s23p63d64s2 (full electronic configuration) or [Ar] 3d64s2 (shorthand electronic configuration)
explain the electronic configurations in terms of energy of the electrons and inter-electron repulsion
describe and use the electrons in boxes notation
describe and sketch the shapes of s and p orbitals
describe a free radical as a species with one or more unpaired electrons
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AS Level Chemistry 9701
Topic 1.1 Particles in the atom and atomic radius
22 August 2023
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Review of previous learning
⚗️ Apply the isotopic notation in the items on page 8-9, e-Coursebook, Questions 3b-3e, 4-6.
⚗️ Definition of key terms: shells, sub-shells and orbitals, principal quantum number (n), ground state via Blooket.
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Element Quiz 02
Instructions:
Fifteen elements are included in this quiz.
Symbols, names, or atomic numbers shall be given. Identify what is needed.
Multiple choice and Short-answer questions are used.
Blooket will be used for this activity.
Marks will be based on the number of correctly-responded questions.
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Activity 9—Isotopes and Ions
Instructions:
⚗️ Perform the given tasks on pages 8-9, e-Coursebook, Questions 3b-3e, 4-6.
⚗️ Share your output with a classmate.
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Activity 10—Definition of Terms
(Electrons, energy levels and atomic orbitals)
Instructions:
⚗️ Review the definitions of the terms: shells, sub-shells and orbitals, principal quantum number (n), ground state, limited to electronic configuration via Blooket
⚗️ Essential question: ❓Do electrons have a specific location around the nucleus of an atom?
⚗️ Share your ideas about the essential question.
Slide 8 - Tekstslide
AS Level Chemistry 9701
Topic 1.1 Particles in the atom and atomic radius
22 August 2023
Slide 9 - Tekstslide
docs.google.com
Slide 10 - Link
Challenge Task: EC = 2 points
Instructions:
Draw a planetary model of the Chlorine atom (Bohr's Model).
Include the correct number of shells and electrons.
timer
1:00
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Planetary Model of a Chlorine Atom
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Planetary Model of a Chlorine Atom
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Planetary Atomic Model
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AS Level Chemistry 9701
Topic 1.1 Particles in the atom and atomic radius
22 August 2023
Slide 15 - Tekstslide
Concept 1 - Shells
The arrangement of electrons in an atom is __.
Electrons are arranged around the nucleus in principal quantum shells which are numbered by principal energy levels (n).
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Concept 2 - Subshells
The principal quantum shells are split into subshells (s, p, d, f).
Elements > 57 electrons will have an f subshell.
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Concept 2 - Subshells
The principal quantum shells are split into subshells (s, p, d, f).
Elements > 57 electrons will have an f subshell.
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Concept 3 - Orbitals
The subshells contain one or more atomic orbitals.
Orbitals exist at specific energy levels.
❓Where can you find the electrons?
❓How many electrons can each atomic orbital hold?
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Concept 3 - Orbitals
The number of orbitals in each subshell:
s = one orbital x 2 e-
p = three orbitals x 2 e-
d = five orbitals x 2 e-
f = seven orbitals x 2 e-
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Concept 3 - Orbitals (3-D Shapes)
atomic nucleus
lobe
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Concept 3 - Orbitals (3-D Shapes)
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Concept 4 - Ground State
It is an atom's most stable electronic configuration with the lowest amount of energy.
Order of subshells' increasing energy: only for n=1 and n=2.
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Concept 5 - Subshells and Energy
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Summary: Shells, Subshells, Orbitals
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Sharing of Learning Table
Instruction:
Formulate your conclusion based on your table.
Share your conclusions about the learning table with the class.
timer
1:00
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Activity 11— s and p Orbitals: 3-D Model-making (Classwork 05)
Instructions:
⚗️ Navigate the simulation found at Atomic Orbitals simulation. Use this as a blueprint for your model.
⚗️ Include information such asshape, size, orientation, andamount of energy.
⚗️ Share your models with the class.
timer
15:00
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www.chemtube3d.com
Slide 28 - Link
AS Level Chemistry 9701
Topic 1.1 Particles in the atom and atomic radius
22 August 2023
Slide 29 - Tekstslide
Concept 6 - Electron configuration
- lets you know of the number of electrons in each shell, subshell, and orbital of an atom
- fill the subshells in order of increasing energy
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Concept 6 - Electron configuration
Three methods of writing the electron configuration:
Full E.C. or 1s2 notation
Shorthand E.C. (Noble gas notation)
Electron Box Notation (Orbital diagram)
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Concept 6a - Full Electron configuration 1s2 notation
Practice writing the FEC of:
Hydrogen
Helium
Lithium
Beryllium
Boron
Carbon
Nitrogen
Oxygen
Fluorine
Neon
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Concept 6b - Shorthand Electron configuration
Practice writing the SEC of:
Lithium
Beryllium
Boron
Carbon
Nitrogen
Oxygen
Fluorine
Neon
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Concept 6c - Electron Box Notation
Electrons = small spinning charges
Electrons with similar spin = repel each other (a.k.a. Spin-pair repulsion)
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Concept 6c - Electron Box Notation
Even though there is repulsion between negatively charged e- (inter-electron repulsion) they occupy the same region of space in orbitals.
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Concept 6c - Electron box notation
Practice writing the EBN of:
Lithium
Beryllium
Boron
Carbon
Nitrogen
Oxygen
Fluorine
Neon
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Concept 7 - Free Radicals
Free radical - is a species with one or more unpaired electrons.
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AS Level Chemistry 9701
Topic 1.1 Particles in the atom and atomic radius
22 August 2023
Slide 38 - Tekstslide
Self-Assessment of Learning
Instructions:
⚗️ Identify two ideas you do not understand quite well in our sessions.
⚗️ Ask someone who can explain and write the explanations in your notebook.
⚗️ Verify your learning from a classmate by sharing it with the teacher.