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07&09/10: Isotopes and Ar

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CHEMISTRY 9
17 - Electron configuration
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Slide 1: Tekstslide
ChemistrySecondary Education

In deze les zitten 59 slides, met interactieve quizzen en tekstslides.

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Pres_Template
CHEMISTRY 9
17 - Electron configuration

Slide 1 - Tekstslide

draw a Bohr's diagram of an atom of an element.
write the electron configuration of an element.

Slide 2 - Tekstslide

electron shell
nucleus
electron

Slide 3 - Sleepvraag

Bohr's diagram of an atom

Slide 4 - Tekstslide

Bohr's diagram of an atom

Slide 5 - Tekstslide

Electron shells
  • the allowed energies of electrons in atoms
  • electrons fill these shells (or levels), starting with the one closest to the nucleus


Slide 6 - Tekstslide

Electron shells
  • the allowed energies of electrons in atoms
  • electrons fill these shells (or levels), starting with the one closest to the nucleus


Slide 7 - Tekstslide

Electron shells
  • the allowed energies of electrons in atoms
  • electrons fill these shells (or levels), starting with the one closest to the nucleus


Slide 8 - Tekstslide

Electron shells
  • the allowed energies of electrons in atoms
  • electrons fill these shells (or levels), starting with the one closest to the nucleus

The atomic theory of the arrangement of electrons (Bohr's Model)
  • a model of the atom in which electrons can only occupy certain shells (or energy levels) moving outwards from the nucleus of the atom

Slide 9 - Tekstslide

Electron shells
  • the allowed energies of electrons in atoms
  • electrons fill these shells (or levels), starting with the one closest to the nucleus

The atomic theory of the arrangement of electrons (Bohr's Model)
  • a model of the atom in which electrons can only occupy certain shells (or energy levels) moving outwards from the nucleus of the atom

Slide 10 - Tekstslide

Electron shells
  • the allowed energies of electrons in atoms
  • electrons fill these shells (or levels), starting with the one closest to the nucleus

The atomic theory of the arrangement of electrons (Bohr's Model)
  • a model of the atom in which electrons can only occupy certain shells (or energy levels) moving outwards from the nucleus of the atom

Slide 11 - Tekstslide

How do we use Bohr's diagram to show the electron configuration of an atom of an element?
Sample 1: Draw the Bohr's diagram of Helium
How do we use Bohr's diagram to show the electron configuration of an atom of an element?
Bohr's diagram
Electron configuration:

Slide 12 - Tekstslide

How do we use Bohr's diagram to show the electron configuration of an atom of an element?
Sample 2: Draw the Bohr's diagram of Lithium
Bohr's diagram
Electron configuration:
Electron configuration:

Slide 13 - Tekstslide

draw a Bohr's diagram of an atom of an element.

Slide 14 - Tekstslide


I can draw the Bohr's diagram of an atom of an element.
Yes, I can confidently draw it.
Yes, I can but need more practice.
No, I lack confidence so I need more practice or ask help from my teacher.

Slide 15 - Poll

Choose ONE and do it on your whiteboard.
WE DO it together!
Collaborative Group Work
timer
3:00

Slide 16 - Tekstslide

TEAM ________
Draw the Bohr's diagram of your chosen element.
Bohr's diagram
Electron configuration:
Electron configuration:

Slide 17 - Tekstslide

Choose ONE and do it in your notebooks.
timer
5:00
YOU DO it together!
Collaborative Pair Work

Slide 18 - Tekstslide

write the electron configuration of an element.

Slide 19 - Tekstslide


I can write the electron configuration of an element.
Yes, I can confidently write it.
Yes, I can but need more practice.
No, I lack confidence so I need more practice or ask help from my teacher.

Slide 20 - Poll

Pres_Template
CHEMISTRY 9
16 - Isotopes

Slide 21 - Tekstslide

  • GOOD MORNING! Perhaps you can greet Teacher Russel and your classmates, too?
  • Where will you put your notebook, workbook, and pen or pencil?
  • Have you joined our LessonUp slides?
  • Have you checked any announcements or missing work on our Google Classroom?
  • Are you seated in your assigned chair?
Let's make our day right!
timer
2:00

Slide 22 - Tekstslide

state the 
Ar equation.
use the Ar equation to calculate elements' relative atomic mass.

Slide 23 - Tekstslide

carbon-14
carbon-12
carbon-13

Slide 24 - Sleepvraag

timer
1:00
Isotopes are atoms
of the same element,
the same p_ _ _ _ _ number,
but a different n_ _ _ _ _ _ number
(proton + neutron).

Slide 25 - Woordweb

Slide 26 - Tekstslide

Isotopic mass or atomic mass of the isotope
(mass of the isotope)

Slide 27 - Tekstslide

atomic number or proton number

Slide 28 - Tekstslide

Relative atomic mass (Ar)
  • the average mass of naturally occurring atoms of an element on a scale where the carbon-12 atom has a mass of exactly 12 units

Slide 29 - Tekstslide

Relative atomic mass (Ar)
  • the average mass of naturally occurring atoms of an element on a scale where the carbon-12 atom has a mass of exactly 12 units

Slide 30 - Tekstslide

Relative atomic mass (Ar)
  • the average mass of naturally occurring atoms of an element on a scale where the carbon-12 atom has a mass of exactly 12 units

Slide 31 - Tekstslide

Relative atomic mass (Ar)
  • the average mass of naturally occurring atoms of an element on a scale where the carbon-12 atom has a mass of exactly 12 units

Slide 32 - Tekstslide

Relative atomic mass (Ar)
  • the average mass of naturally occurring atoms of an element on a scale where the carbon-12 atom has a mass of exactly 12 units

Slide 33 - Tekstslide

Relative atomic mass (Ar)
  • the average mass of naturally occurring atoms of an element on a scale where the carbon-12 atom has a mass of exactly 12 units

Slide 34 - Tekstslide

Relative atomic mass (Ar)
  • the average mass of naturally occurring atoms of an element on a scale where the carbon-12 atom has a mass of exactly 12 units

Slide 35 - Tekstslide

Relative atomic mass (Ar)
  • the average mass of naturally occurring atoms of an element on a scale where the carbon-12 atom has a mass of exactly 12 units

Slide 36 - Tekstslide

Relative atomic mass (Ar)
  • the average mass of naturally occurring atoms of an element on a scale where the carbon-12 atom has a mass of exactly 12 units

Slide 37 - Tekstslide

Relative atomic mass (Ar)
  • the average mass of naturally occurring atoms of an element on a scale where the carbon-12 atom has a mass of exactly 12 units

Slide 38 - Tekstslide

Relative atomic mass
  • the unit called the amu (u) is used
  • relative atomic mass unit (amu) = 1/12th the mass of a carbon-12 atom

Slide 39 - Tekstslide

What is the equation for relative atomic mass, a.k.a Ar?

Slide 40 - Tekstslide

What is the equation for relative atomic mass, a.k.a Ar?

Slide 41 - Tekstslide

state the 
Ar equation.

Slide 42 - Tekstslide


I CAN state the Ar equation.
Yes, I can confidently state it.
Yes, I can but need more practice.
No, I lack confidence so I need more practice or ask help from my teacher.

Slide 43 - Poll

What is the equation for relative atomic mass, a.k.a Ar?

Slide 44 - Tekstslide

How do we use the equation for relative atomic mass, a.k.a Ar?

Slide 45 - Tekstslide

Sample question 1:
  • Lithium has two naturally occurring isotopes: 6Li (7% abundance) and 7Li (93% abundance). Calculate the relative atomic mass of lithium.
Thought-process
How do we use the equation for relative atomic mass, a.k.a Ar?

Slide 46 - Tekstslide

Sample question 2:
  • Boron has two naturally occurring isotopes with the natural abundances shown in the table below:
Thought-process
How do we use the equation for relative atomic mass, a.k.a Ar?

Slide 47 - Tekstslide

Slide 48 - Tekstslide

Question 1:
  • Chromium has four naturally occurring isotopes, and their masses and natural abundances are shown in the table below. Calculate the relative atomic mass of chromium to two decimal places.
Question 2:
  • Mass spectroscopic analysis of a sample of magnesium gave the following results. Calculate the relative atomic mass, Ar, of this sample of magnesium to two decimal places.
WE DO it together!
Collaborative Group Work
timer
3:00

Slide 49 - Tekstslide

Question 1:
  • Chromium has four naturally occurring isotopes, and their masses and natural abundances are shown in the table below. Calculate the relative atomic mass of chromium to two decimal places.
Question 2:
  • Mass spectroscopic analysis of a sample of magnesium gave the following results. Calculate the relative atomic mass, Ar, of this sample of magnesium to two decimal places.
WE DO it together!
Collaborative Group Work
timer
3:00

Slide 50 - Tekstslide

use the Ar equation to calculate elements' relative atomic mass.

Slide 51 - Tekstslide


I CAN use the Ar equation to calculate elements' relative atomic mass.
Yes, I can confidently use it.
Yes, I can but need more practice.
No, I lack confidence so I need more practice or ask help from my teacher.

Slide 52 - Poll

YOU DO it together!
Collaborative Pair Work
Open your notebook.

  • Look for the pasted piece of paper with a table related to relative atomic mass.
  • Work with your seatmate. Help each other calculate the Ar of the isotopes. CHOOSE TWO ONLY.
  • Please raise your hand if you need any help or if you want me to provide feedback about your work.
timer
5:00

Slide 53 - Tekstslide

timer
3:00
  • Accomplish the reflection sheet.
  • Share your goal with your seatmate.

Slide 54 - Tekstslide

timer
3:00
  • Accomplish the reflection sheet.
  • Share your goal with your seatmate.

Slide 55 - Tekstslide

Slide 56 - Tekstslide

Choose one and do it in your notebook.
timer
5:00
YOU DO it alone!
Independent Practice

Slide 57 - Tekstslide

Write the electron configuration of Neon, Argon, and Krypton. 
Q1: Do they have similar properties?
Q2: What causes this similarity?
Q3: What pattern do you see in the number of electrons?
Q4: How are they used in daily life?
timer
5:00

Slide 58 - Tekstslide

Characteristics of isotopes

Slide 59 - Tekstslide

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