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1.1d Particles in the atom and atomic radius

AS Level Chemistry 9701
Topic 1.1 Particles in the atom and atomic radius
24 August 2023
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ChemistrySecondary EducationAge 12,13

This lesson contains 51 slides, with interactive quizzes and text slides.

Items in this lesson

AS Level Chemistry 9701
Topic 1.1 Particles in the atom and atomic radius
24 August 2023

Slide 1 - Slide

  • determine the electronic configuration of atoms and ions given the atomic or proton number and charge using the FEC, SEC, and EBN
  • explain the electronic configurations in terms of energy of the electrons and inter-electron repulsion  
  • describe and sketch the shapes of s and p orbitals  
  • describe a free radical 
We are learning to:

Slide 2 - Slide

AS Level Chemistry 9701
Topic 1.1 Particles in the atom and atomic radius
24 August 2023

Slide 3 - Slide

  • Recall the meaning of "Ionisation energy" and what it does
  • Draw a planetary model of a Calcium atom at the ground state following its electron configuration.
Recap of our lessons

Slide 4 - Slide

AS Level Chemistry 9701
Topic 1.1 Particles in the atom and atomic radius
24 August 2023

Slide 5 - Slide

atomic nucleus
lobe

Slide 6 - Slide

Slide 7 - Slide

T O   D O:
  • 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.
s and p Orbitals: 3-D Model-making 
timer
25:00

Slide 8 - Slide

www.chemtube3d.com

Slide 9 - Link

AS Level Chemistry 9701
Topic 1.1 Particles in the atom and atomic radius
24 August 2023

Slide 10 - Slide

Writing electron configurations

Slide 11 - Slide

Principles involved in EC
  • Aufbau Principle = German for 'building up
  • Madelung's Rule
  • Hund's Rule of Maximum Multiplicity

Slide 12 - Slide

Aufbau Principle
1s<2s<2p<3s<3p<4s<3d<4p<5s<4d<5p<6s<4f<5d<6p<7s<5f<6d<7p

  •  Electrons occupy orbitals in order of increasing energy.

Slide 13 - Slide

Madelung's Rule

Slide 14 - Slide

Slide 15 - Slide

Hund's Rule
  • When electrons occupy degenerate orbitals, they must first occupy the empty orbitals before double occupying them.

Slide 16 - Slide

Electron Box Notation
  • Electrons = small spinning charges
  • Electrons with similar spin = repel each other 
  • (a.k.a. Spin-pair repulsion)

Slide 17 - Slide

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 18 - Slide

Electron box notation
  • Lithium
  • Beryllium
  • Boron
  • Carbon
  • Nitrogen
  • Oxygen
  • Fluorine
  • Neon

Slide 19 - Slide

AS Level Chemistry 9701
Topic 1.1 Particles in the atom and atomic radius
24 August 2023

Slide 20 - Slide

Free Radicals
  • Free radical - a species with one or more unpaired electrons.

Slide 21 - Slide

Self-Assessment of Learning
T O    D O:
  • 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

Slide 22 - Slide

AS Level Chemistry 9701
Topic 1.1 Particles in the atom and atomic radius
24 August 2023

Slide 23 - Slide

  • define and use the term first ionisation energy, IE1  
  • explain the reason for ionisation energies 
  • identify and explain the trends in ionisation energies across a period and down a group of the Periodic Table  
We are learning to:

Slide 24 - Slide

  • explain the factors influencing the ionisation energies of elements   
  • construct equations to represent first, second and subsequent ionisation energies  
  • identify and explain the variation in successive ionisation energies of an element  
We are learning to:

Slide 25 - Slide

Ca (g) → Ca+(g)  +  e-                 IE1 = + 590 kJ mol-              @298 K , 101 kPa
Recap of lessons

Slide 26 - Slide

Ca (g) → Ca+(g)  +  e-                 IE1 = + 590 kJ mol -              @298 K , 101 kPa
Recap of lessons
  • ionisation equation
  • ❓Question: In a statement form, what does the equation tell you? 

Slide 27 - Slide

                                      Ca (g) → Ca+(g)  +  e-                 

  • Translate the given equation into a sentence using the key terms: energy, remove, one mole of electrons, gaseous. 

  • Share your output with a classmate
Challenge 🏆

Slide 28 - Slide

                                      Ca (g) → Ca+(g)  +  e-                 

  • The first ionisation energy of Calcium is the energy required to remove one mole of electrons from one mole of the gaseous Calcium.
Translation 📝

Slide 29 - Slide

docs.google.com

Slide 30 - Link

  • Ionisation energy - the amount of energy required to remove one mole of electrons from one mole of gaseous atoms to form one mole of gaseous ions. 
  •  measured under standard conditions @298 K , 101 kPa
  • unit of measure - kilojoules per mole (kJmol-)
Ionisation Energies

Slide 31 - Slide

Ca (g) → Ca+(g)  +  e-           IE1 = + 590 kJ mol -                   @298 K , 101 kPa         

  • The first ionisation energy of Calcium is the energy required to remove one mole of electrons from one mole of the gaseous Calcium to form one mole of 1+ ions.
First Ionisation Energy 

Slide 32 - Slide

Need for Energy
  • ❓Question: Is energy really needed to remove valence electrons? 

Slide 33 - Slide


Is energy needed to remove 
valence electrons?
Yes.
No.

Slide 34 - Poll

Need for Energy

Slide 35 - Slide

Attractive force

Slide 36 - Slide

Attractive force
  • ❓Question: Can you break this attractive force?

Slide 37 - Slide

Attractive force
ionisation energy

Slide 38 - Slide

  • Nuclear charge
  • Shielding
  • Atomic or ionic radius
  • Spin-pair repulsion
Factors affecting the magnitude of ionisation energy

Slide 39 - Slide

  • increases with increasing proton number
  • stronger attractive force between the protons and electrons
  • greater nuclear charge = higher ionisation energy needed
Factor 1- Nuclear charge

Slide 40 - Slide

  • more shells = more shielding effect due to inter-electron repulsion
  • more shielding = weaker attractive force
  • more shielding = requires lower ionisation energy
Factor 2 - Shielding

Slide 41 - Slide

Slide 42 - Slide

  • ❓Question: Which has more shielding effect?

Slide 43 - Slide


Which has more shielding effect?

Slide 44 - Poll

  • larger radius = outer electrons are farther away from the nucleus
  • greater distance from the nucleus = weaker attractive force
  • weaker attractive force = less ionisation energy needed 
Factor 3 - Atomic or ionic Radius 

Slide 45 - Slide

Slide 46 - Slide

  • Spin-pair repulsion happens when the electron being removed is spin-paired with another electron in the same orbital.
  •  Non-spin-paired electrons are more difficult to remove, so they require more ionisation energy.
Factor 4 - Spin-pair repulsion

Slide 47 - Slide

Summary of Factors

Slide 48 - Slide

AS Level Chemistry 9701
Topic 1.1 Particles in the atom and atomic radius
24 August 2023

Slide 49 - Slide

T O   D O:
  • Using the given chart on the first, second, third, and fourth ionisation energies of elements, construct a bar graph.
  • The x-axis is the element in symbol with atomic number, and the y-axis is the first ionisation energy, in kJ mol -.
  • Share your graphs with the class.
Activity 12—Bar Graph Making (First ionisation energies of elements from periods 1-3)
timer
15:00

Slide 50 - Slide

  • Ionisation energies show periodicity.
Across a period 
- nuclear charge increases
- atomic radius decreases
- shielding remains constant
- gets harder to remove an electron
- ionisation energy increases
Conclusions from the graphs

Slide 51 - Slide

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