1.1c Particles in the atom and atomic radius
AS Level Chemistry 9701
Topic 1.1 Particles in the atom and atomic radius
22 August 2023
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ChemistrySecondary EducationAge 12,13
This lesson contains 39 slides, with text slides.
Items in this lesson
AS Level Chemistry 9701
Topic 1.1 Particles in the atom and atomic radius
22 August 2023
Slide 1 - Slide
We are learning to:
- 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
Slide 2 - Slide
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
Slide 3 - Slide
AS Level Chemistry 9701
Topic 1.1 Particles in the atom and atomic radius
22 August 2023
Slide 4 - Slide
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.
Slide 5 - Slide
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.
Slide 6 - Slide
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.
Slide 7 - Slide
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 - Slide
AS Level Chemistry 9701
Topic 1.1 Particles in the atom and atomic radius
22 August 2023
Slide 9 - Slide
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
Slide 11 - Slide
Planetary Model of a Chlorine Atom
Slide 12 - Slide
Planetary Model of a Chlorine Atom
Slide 13 - Slide
Planetary Atomic Model
Slide 14 - Slide
AS Level Chemistry 9701
Topic 1.1 Particles in the atom and atomic radius
22 August 2023
Slide 15 - Slide
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).
Slide 16 - Slide
Concept 2 - Subshells
- The principal quantum shells are split into subshells (s, p, d, f).
- Elements > 57 electrons will have an f subshell.
Slide 17 - Slide
Concept 2 - Subshells
- The principal quantum shells are split into subshells (s, p, d, f).
- Elements > 57 electrons will have an f subshell.
Slide 18 - Slide
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?
Slide 19 - Slide
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-
Slide 20 - Slide
Concept 3 - Orbitals (3-D Shapes)
atomic nucleus
lobe
Slide 21 - Slide
Concept 3 - Orbitals (3-D Shapes)
Slide 22 - Slide
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.
Slide 23 - Slide
Concept 5 - Subshells and Energy
Slide 24 - Slide
Summary: Shells, Subshells, Orbitals
Slide 25 - Slide
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
Slide 26 - Slide
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 as shape, size, orientation, and amount of energy.
- ⚗️ Share your models with the class.
timer
15:00
Slide 27 - Slide
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 - Slide
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
Slide 30 - Slide
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)
Slide 31 - Slide
Concept 6a - Full Electron configuration 1s2 notation
Practice writing the FEC of:
- Hydrogen
- Helium
- Lithium
- Beryllium
- Boron
- Carbon
- Nitrogen
- Oxygen
- Fluorine
- Neon
Slide 32 - Slide
Concept 6b - Shorthand Electron configuration
Practice writing the SEC of:
- Lithium
- Beryllium
- Boron
- Carbon
- Nitrogen
- Oxygen
- Fluorine
- Neon
Slide 33 - Slide
Concept 6c - Electron Box Notation
- Electrons = small spinning charges
- Electrons with similar spin = repel each other (a.k.a. Spin-pair repulsion)
Slide 34 - Slide
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.
Slide 35 - Slide
Concept 6c - Electron box notation
Practice writing the EBN of:
- Lithium
- Beryllium
- Boron
- Carbon
- Nitrogen
- Oxygen
- Fluorine
- Neon
Slide 36 - Slide
Concept 7 - Free Radicals
Free radical - is a species with one or more unpaired electrons.
Slide 37 - Slide
AS Level Chemistry 9701
Topic 1.1 Particles in the atom and atomic radius
22 August 2023
Slide 38 - Slide
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.
timer
5:00
