
Final Review
Presentation
•
Chemistry
•
9th - 12th Grade
•
Medium
Callie Brooks
Used 4+ times
FREE Resource
15 Slides • 21 Questions
1
Final Review
2
3
Important people
JJ Thomson discovered the electron(experimented with cathode rays)
Rutherford discovered the nucleus (experimented with gold foil and alpha particles)
Democritus was the first person to propose the idea of an atom
Bohr created the Bohr's model. He proposed the theory that electrons orbit the nucleus in specific orbits.
4
Multiple Choice
Which Scientist created this model
Democritus
Chadwick
Bohr
Rutherford
5
Multiple Choice
These particles are found in the nucleus
protons and electrons
nucleus and neutrons
protons and neutrons
electrons and neutrons
6
Multiple Choice
Who proposed the theory that electrons orbit the nucleus in specific orbits.
Bohr
Democritus
Rutherford
Chadwick
7
Multiple Choice
First person to propose the concept of an atom
Rutherford
Democritus
Dalton
Bohr
8
Multiple Choice
JJ Thomson discovered what subatomic particle
nucleus
neutron
proton
electron
9
Multiple Choice
JJ Thomson discovered what subatomic particle
nucleus
neutron
proton
electron
10
11
Periodic Trends
Atomic Radius, Ionization Energy, Electron Affinity, and Electronegativity
12
Atomic Radius
Compare the size of each atom in the picture to the right. Do you notice any trends?
13
Multiple Choice
Based on the image on the last slide. As you go across a period, does the atomic radius get smaller or larger?
Smaller
Larger
Stays the same
14
Atomic Radius
As you go across the period (row) Atomic Radius decreases.
This is caused by an increasing positive charge in the nucleus.
Electrons are on the same energy level going across the period, but more protons are pulling electrons in closer. This results in a smaller atomic radius.
15
Atomic Radius
As you go down a group (column) Atomic Radius increases
The number of electron shells increase as you move down the periodic table.
This results in a larger atomic radius because the nucleus has less pull on the outer shell of electrons.
16
Multiple Choice
Put these elements in order of INCREASING atomic radius.
Li, O, C, F
O, C, F, Li
F, O, C, Li
Li, C, O, F
C, F, Li, O
17
Multiple Choice
Put these elements in order of DECREASING atomic radius.
Ca, Be, Ba, Sr
Sr, Ba, Be, Ca
Be, Ca, Sr, Ba
Ba, Sr, Ca, Be
Ca, Be, Ba, Sr
18
Ionization Energy
The energy required to remove one electron from the outer shell of a neutral atom.
This is the energy needed to form an ion.
When ionization energy is high it is harder to remove that electron.
19
Ionization Energy
Moving across a period, ionization energy increases.
Group one has a low ionization energy and has a high reactivity
Group 18 has a high ionization energy and are unreactive.
Caused by an increasing positive charge in the nucleus, attracting electrons more strongly.
20
Ionization Energy
decreases as you move down the periodic table.
Elements with larger atomic radius have less pull on their electrons in the outer shell and tend to give them up.
21
Electron Affinity
The energy change that occurs when a neutral atom gains an electron.
energy changes that are more negative have a higher electron affinity.
22
Multiple Choice
Which elements do you think will have a low ionization energy and lose electrons more readily?
elements that form anions (negative charge)
Elements that form cations (positive charge)
Transition metals
23
Multiple Choice
What elements do you expect to have a high electron affinity?
Elements that form cations
Elements that form anions
Transition metals
24
Electron Affinity
As you move across the period table, electron affinities generally become more negative.
There are some exceptions to this rule.
25
Electronegativity
Measures the ability of an atom in a chemical compound to attract electrons from another atom in the compound.
Think about what elements attract electrons.
The highest value is 4.0 and fluorine is the most electronegative element.
26
Electronegativity
Increases as you move across the periodic table.
Group 1 and 2 metals are the least electronegative elements and tend to lose electrons when forming ions.
Nitrogen, oxygen, and halogens are the most electronegative and strongly attract electrons when in compounds.
Decreases or stays the same moving down a group.
27
Multiple Choice
28
Multiple Choice
29
Multiple Choice
30
Multiple Choice
31
Multiple Choice
Which alkali metal is the least reactive?
Li
Na
H
Fr
32
Multiple Choice
Which of the metalloids has the smallest atomic radius?
Si
B
Sb
Al
33
Multiple Choice
Of the halogens, which has the smallest radius?
F
Br
He
At
34
Multiple Choice
Which of the group 13 elements is the largest?
B
Ti
Fr
Ga
35
Multiple Choice
Which element in Period 2 has the greatest atomic radius?
Be
C
Na
Li
36
Multiple Choice
What elements have the highest Electronegativity?
Halogens (group 17)
Alkali Metals (Group 1)
Alkaline-earth Metals (group 2)
Noble gases (group 18)
Final Review
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