1. What color is the sun? Electrons…explain light
Why things come together

2. Contrary to popular belief, the sun is actually white!
When viewed from outside our atmosphere the sun appears white.

3. The Sun as Seen by ISS
Why?
Image via Nasa.gov

4. RAINBOWS!
How does a Rainbow Form

5. White Light is Composed of all Colors: ROY G BIV
PRISM
WHITE LIGHT

6. White Light is Composed of all Colors: ROY G BIV
PRISM
How Does a Prism Work?
As light enters a new material or medium (e.g. from air to glass) it changes speed which causes it to bend or refract.
Different colors of light bend different amounts. Thus, white light separated into a full rainbow of colors.

7. Simple Refraction Demo
Arrow and a glass cup.

8. Why Does the Sun Appear to be Yellow?
A simple explanation is that all the particles in our atmosphere filter out all the colors but yellow making the sun appear yellow.
Likewise, grass is green because the pigment chlorophyll inside of grass is very good at absorbing blue and red light, leaving the green to be reflected.

9. EARTH Why are Sunrises and Sunsets Red/Orange?
At dawn/dusk the sun has to travel through a longer path in the atmosphere to reach us which scatters out the blue normally making up our sky color. X
EARTH
The size of our atmosphere is EXTREMELY exaggerated!

10. If Earth was the Size of an Apple
The atmosphere would be much thinner than the skin on the apple.
The atmosphere is about 60 miles thick whereas earth has a radius of about 4,000 miles.

12. RAINBOW How Does a Rainbow Form?
WHITE LIGHT
Sunlight strikes water droplets in the atmosphere. The water droplets behave like a prism and separate the light into a full rainbow of colors.
THE SUN MUST BE AT YOUR BACK TO SEE A
RAINBOW

13. As white sunlight enters a raindrop it refracts into a full spectrum of color.
The light will then reflect or bounce off the opposite side of the drop and exit on the same side it entered (refracting again!)
Refraction
Reflection
Refraction

14. Activity: Grab a spectroscope and use it to look at the following:
Sunlight (not directly)
Fluorescent Light
Helium Tube
Oxygen Tube
Hydrogen Tube
Krypton Tube
Use colored pencils and markers to draw the spectral lines (color pattern).
Image via openstax
When light passes through a diffraction grating (slit) of a certain size it the light separates into its respective colors.
In this unit we want to understand what creates light and why each element has a unique set of spectral lines. In order to do that we need to take a deeper look at electrons…
Angular momentum quantum number, magnetic quantum number, nodes….

15. Spectroscopic Analysis
Astronomy! We can’t get to the stars so spectral analysis is crucial to understand what these objects are made of.
Helium was discovered on the sun before it was found on Earth.

16. How Light Forms 2-8-8-2 rule [1] Energy strikes an atom
[2] Electrons in their grounds state become excited and jump up to a higher energy level
Light
[3] Electrons in higher energy levels are unstable. They drop back down to their ground state and emit the energy they absorbed.
Water sugar salt
We are going to talk about bonding
Bonding between atoms is CIM
Why do 2h and OThere are several difference bond types in Chemistry.
All are concerned with electrons.
Intermolecular bonds occur between molecules (hydrogen bonding)
[4] That energy is emitted as photons or small packets of light

17. Wave Mechanical Atom (Lab)
Understanding electrons allows us to understand light and how and why atoms join together.
Electron location is based upon probability.
Electrons orbits are quantized.
Planetary Orbits
Electrons are little circles

18. STUDENTS PLEASE DON’T FART
S (2 electrons)
P (6 electrons)
D (10 electrons)
F (14 electrons)
Have students repeat and chant this

19. Writing the standard, ground state electron configuration order.
Draw the numbers 1-7 down and put an s after them
Draw the numbers 2-7 and put a p after them.
Draw the numbers 3-6 and put a d after them
Draw the numbers 4-7 and put an f after them
Inset arrows diagonally starting with the 1s
Follow the the arrows (top to bottom) and write the order out.
Now insert the SPDF numbers as exponents.
Aufbau Principle
S(2) P(6) D(10) F(14) 2p 3p 4p 5p 6p 7p 3d 4d 5d 6d 7d 4f 5f 6f 7f 1s 2s 3s 4s 5s 6s 7s
1s2s2p3s3p4s3d4p5s4d5p6s4f5d6p7s5f6d7p
Writing the standard, ground state electron configuration order.
Write out Triangle and then the Stanard Ground state E-Config
1s22s22p63s23p64s23d104p65s24d105p66s24f145d106p67s25f146d107p6

20. Containers that hold electrons
Orbital shape
Containers that hold electrons
1s2
# of Electrons
Energy Level
1s22s22p63s23p64s23d104p65s24d105p66s24f145d106p67s25f146d10

21. Practice Configuration and Boxes
Hydrogen
Oxygen
Fluorine
Neon-21
Al3+
You have to fill up one orbital before going into the next one!
HANDOUT
1s22s22p63s23p64s23d104p65s24d105p66s24f145d106p67s25f146d10

22. We are going to talk about bonding Bonding between atoms is CIM
Water sugar salt
We are going to talk about bonding
Bonding between atoms is CIM
Why do 2h and OThere are several difference bond types in Chemistry.
All are concerned with electrons.
Intermolecular bonds occur between molecules (hydrogen bonding)

23. Pauli Exclusion Principle
Hund’s Rule
Pauli Exclusion Principle
Aufbau Principle
__ __ __ __ __ __ __ __ __ __ __ __ __ __ __ __ __ __ __ __ __ __ __ __ __ __ __ __ __ __ __ __ __ __ __
1s s p s p s d p s d p s f14
PEP: two electrons in same sub-orbital MUST have opposite spins…not just electrons but all fermions…
Hund’s Rule: electrons fill each orbitql before pairing up (city bus analogy… take empty seat before pairing…)
Aufbaul: electrons fill low energy to high
Neon
Sulfur
Krypton
Oxygen
Nitrogen
Mg2+
S2-
14C
Up and Down Arrows denote electrons and their spin.
Fill in the diagram and write out the electron configuration
Look up Hund’s Rule and the Pauli Exclusion Principle!

24. 7s2
6p6
5d10
6s2
4f14
5p6
5s2
4d10
4p6
4s2
3d10
3p6
3s2
2p6
2s2
Hydrogen
Nitrogen
Sodium
Potassium
Rubidium
Caesium
1s2

25. Valence Electrons 1s 2s 3s 4s 5s 6s 7s 2p 3p 4p 5p 6p 7p 3d 4d 5d 6d4f 5f 6f 7f
Electrons in the outermost energy level of an atom.
The most important electrons in an atom, they determine chemical bonds and properties.
They are the furthest from the Nucleus and therefore, when two atoms/molecules come into contact with one another it is the outer electrons that interact first.
Nucleus super dense, mostly empty space….electrons interact
1s22s22p63s23p64s23d104p65s24d105p66s24f145d106p67s25f146d10

26. 1s22s22p63s23p64s23d104p65s2…
Determine the number of Valence Electrons
Carbon
Neon
Argon
Iron
First you need to determine the total number of electrons each element has.
You need to write out its ground state electron configuration.
Count the number of electrons in the highest energy level.

27. 1s22s22p63s23p64s23d104p65s2…
Determine the number of Valence Electrons
Carbon 1s22s22p2 =4
Neon 1s22s22p6 =8
Argon 1s22s22p63s23p6 =8
Iron 1s22s22p63s23p64s23d6 =2
First you need to determine the total number of electrons each element has.
You need to write out its ground state electron configuration.
Count the number of electrons in the highest energy level.
Handout

28. Column Number 1A-8A is the number of Valence electrons
Selenium
Tin
Strontium
Krypton
Iodine
Potassium
Sodium
Gallium
How Many Valence Electrons?

29. All column 1A elements have 1 valence electron
Hydrogen
1.0079
Alkali Metals
Alkaline Earth Metals
Transition Metals
Lanthanides
Actinides
Other Metals
Metalloids
Other Nonmetals
Halogens
Noble Gases 2 He
Helium
4.003 3 Li
Lithium
6.941 4 Be
Beryllium
9.0122 5 B
Boron
10.811 6 C
Carbon
12.011 7 N
Nitrogen
14.007 8 O
Oxygen
15.999 9 F
Fluorine
18.998 10 Ne
Neon
20.180 11 Na
Sodium
22.990 12 Mg
Magnesium
24.305 13 Al
Aluminum
26.982 14 Si
Silicon
28.086 15 P
Phosphorus
30.974 16 S
Sulfur
32.066 17 Cl
Chlorine
35.453 18 Ar
Argon
39.948 19 K
Potassium
39.098 20 Ca
Calcium
40.078 21 Sc
Scandium
44.956 22 Ti
Titanium
47.88 23 V
Vanadium
50.942 24 Cr
Chromium
51.996 25 Mn
Manganese
54.938 26 Fe
Iron
55.933 27 Co
Cobalt
58.933 28 Ni
Nickel
58.693 29 Cu
Copper
63.546 30 Zn
Zinc
65.39 31 Ga
Gallium
69.732 32 Ge
Germanium
72.61 33 As
Arsenic
74.922 34 Se
Selenium
78.09 35 Br
Bromine
79.904 36 Kr
Krypton
84.80 37 Rb
Rubidium
85.468 38 Sr
Strontium
87.62 39 Y
Yttrium
88.906 40 Zr
Zirconium
91.224 41 Nb
Niobium
92.906 42 Mo
Molybdenum
95.94 43 Tc
Technetium
98.907 44 Ru
Ruthenium
101.07 45 Rh
Rhodium 46 Pd
Palladium
106.42 47 Ag
Silver 48 Cd
Cadmium 49 In
Indium 50 Sn
Tin
118.71 51 Sb
Antimony 52 Te
Tellurium
127.6 53 I
Iodine 54 Xe
Xenon
131.29 55 Cs
Cesium
132.91 56 Ba
Barium
137.33 *
57-71 72 Hf
Hafnium
178.49 73 Ta
Tantalum 74 W
Tungsten
183.85 75 Re
Rhenium 76 Os
Osmium
190.23 77 Ir
Iridium
192.22 78 Pt
Platinum
195.08 79 Au
Gold 80 Hg
Mercury
200.59 81 Tl
Thallium 82 Pb
Lead
207.2 83 Bi
Bismuth 84 Po
Polonium
[ ] 85 At
Astatine 86 Rn
Radon 87 Fr
Francium
[223] 88 Ra
[226] **
89-103
104 Rf
Rutherfordium
[261]
105 Db
Dubnium
[262]
106 Sg
Seaborgium
[266]
107 Bh
Bohrium
[264]
108 Hs
Hassium
[269]
109 Mt
Meitnerium
[268]
110 Ds
Darmstadtium
111 Rg
Roentgenium
[272]
112 Cn
Copernicium
[277]
113
Uut
Ununtrium
unknown
114 Fl
Flerovium
[289]
115
Uup
Ununpentium
116 Lv
Livermorium
[298]
117
Uus
Ununseptium
118
Uuo
Ununoctium 57 La
Lanthanum 58 Ce
Cerium 59 Pr
Praseodymium 60 Nd
Neodymium
144.24 61 Pm
Promethium 62 Sm
Samarium
150.36 63 Eu
Europium 64 Gd
Gadolinium
157.25 65 Tb
Terbium 66 Dy
Dysprosium
162.50 67 Ho
Holmium 68 Er
Erbium
167.26 69 Tm
Thulium 70 Yb
Ytterbium
173.04 71 Lu
Lutetium 89 Ac
Actinium 90 Th
Thorium 91 Pa
Protactinium 92 U
Uranium 93 Np
Neptunium 94 Pu
Plutonium 95 Am
Americium 96 Cm
Curium 97 Bk
Berkelium 98 Cf
Californium 99 Es
Einsteinium
[254]
100 Fm
Fermium
101 Md
Mendelevium
258.1
102 No
Nobelium
103 Lr
Lawrencium
2 2A
13 3A A A A A
All column 1A elements have 1 valence electron
Atomic mass in [brackets] is for the most stable isotope .

30. All column 2A elements have 2 valence electrons1 H
Hydrogen
1.0079
Alkali Metals
Alkaline Earth Metals
Transition Metals
Lanthanides
Actinides
Other Metals
Metalloids
Other Nonmetals
Halogens
Noble Gases 2 He
Helium
4.003 3 Li
Lithium
6.941 4 Be
Beryllium
9.0122 5 B
Boron
10.811 6 C
Carbon
12.011 7 N
Nitrogen
14.007 8 O
Oxygen
15.999 9 F
Fluorine
18.998 10 Ne
Neon
20.180 11 Na
Sodium
22.990 12 Mg
Magnesium
24.305 13 Al
Aluminum
26.982 14 Si
Silicon
28.086 15 P
Phosphorus
30.974 16 S
Sulfur
32.066 17 Cl
Chlorine
35.453 18 Ar
Argon
39.948 19 K
Potassium
39.098 20 Ca
Calcium
40.078 21 Sc
Scandium
44.956 22 Ti
Titanium
47.88 23 V
Vanadium
50.942 24 Cr
Chromium
51.996 25 Mn
Manganese
54.938 26 Fe
Iron
55.933 27 Co
Cobalt
58.933 28 Ni
Nickel
58.693 29 Cu
Copper
63.546 30 Zn
Zinc
65.39 31 Ga
Gallium
69.732 32 Ge
Germanium
72.61 33 As
Arsenic
74.922 34 Se
Selenium
78.09 35 Br
Bromine
79.904 36 Kr
Krypton
84.80 37 Rb
Rubidium
85.468 38 Sr
Strontium
87.62 39 Y
Yttrium
88.906 40 Zr
Zirconium
91.224 41 Nb
Niobium
92.906 42 Mo
Molybdenum
95.94 43 Tc
Technetium
98.907 44 Ru
Ruthenium
101.07 45 Rh
Rhodium 46 Pd
Palladium
106.42 47 Ag
Silver 48 Cd
Cadmium 49 In
Indium 50 Sn
Tin
118.71 51 Sb
Antimony 52 Te
Tellurium
127.6 53 I
Iodine 54 Xe
Xenon
131.29 55 Cs
Cesium
132.91 56 Ba
Barium
137.33 *
57-71 72 Hf
Hafnium
178.49 73 Ta
Tantalum 74 W
Tungsten
183.85 75 Re
Rhenium 76 Os
Osmium
190.23 77 Ir
Iridium
192.22 78 Pt
Platinum
195.08 79 Au
Gold 80 Hg
Mercury
200.59 81 Tl
Thallium 82 Pb
Lead
207.2 83 Bi
Bismuth 84 Po
Polonium
[ ] 85 At
Astatine 86 Rn
Radon 87 Fr
Francium
[223] 88 Ra
[226] **
89-103
104 Rf
Rutherfordium
[261]
105 Db
Dubnium
[262]
106 Sg
Seaborgium
[266]
107 Bh
Bohrium
[264]
108 Hs
Hassium
[269]
109 Mt
Meitnerium
[268]
110 Ds
Darmstadtium
111 Rg
Roentgenium
[272]
112 Cn
Copernicium
[277]
113
Uut
Ununtrium
unknown
114 Fl
Flerovium
[289]
115
Uup
Ununpentium
116 Lv
Livermorium
[298]
117
Uus
Ununseptium
118
Uuo
Ununoctium 57 La
Lanthanum 58 Ce
Cerium 59 Pr
Praseodymium 60 Nd
Neodymium
144.24 61 Pm
Promethium 62 Sm
Samarium
150.36 63 Eu
Europium 64 Gd
Gadolinium
157.25 65 Tb
Terbium 66 Dy
Dysprosium
162.50 67 Ho
Holmium 68 Er
Erbium
167.26 69 Tm
Thulium 70 Yb
Ytterbium
173.04 71 Lu
Lutetium 89 Ac
Actinium 90 Th
Thorium 91 Pa
Protactinium 92 U
Uranium 93 Np
Neptunium 94 Pu
Plutonium 95 Am
Americium 96 Cm
Curium 97 Bk
Berkelium 98 Cf
Californium 99 Es
Einsteinium
[254]
100 Fm
Fermium
101 Md
Mendelevium
258.1
102 No
Nobelium
103 Lr
Lawrencium
2 2A
13 3A A A A A
All column 2A elements have 2 valence electrons
Atomic mass in [brackets] is for the most stable isotope .

31. All column 3A elements have 3 valence electrons and so on…1 H
Hydrogen
1.0079
Alkali Metals
Alkaline Earth Metals
Transition Metals
Lanthanides
Actinides
Other Metals
Metalloids
Other Nonmetals
Halogens
Noble Gases 2 He
Helium
4.003 3 Li
Lithium
6.941 4 Be
Beryllium
9.0122 5 B
Boron
10.811 6 C
Carbon
12.011 7 N
Nitrogen
14.007 8 O
Oxygen
15.999 9 F
Fluorine
18.998 10 Ne
Neon
20.180 11 Na
Sodium
22.990 12 Mg
Magnesium
24.305 13 Al
Aluminum
26.982 14 Si
Silicon
28.086 15 P
Phosphorus
30.974 16 S
Sulfur
32.066 17 Cl
Chlorine
35.453 18 Ar
Argon
39.948 19 K
Potassium
39.098 20 Ca
Calcium
40.078 21 Sc
Scandium
44.956 22 Ti
Titanium
47.88 23 V
Vanadium
50.942 24 Cr
Chromium
51.996 25 Mn
Manganese
54.938 26 Fe
Iron
55.933 27 Co
Cobalt
58.933 28 Ni
Nickel
58.693 29 Cu
Copper
63.546 30 Zn
Zinc
65.39 31 Ga
Gallium
69.732 32 Ge
Germanium
72.61 33 As
Arsenic
74.922 34 Se
Selenium
78.09 35 Br
Bromine
79.904 36 Kr
Krypton
84.80 37 Rb
Rubidium
85.468 38 Sr
Strontium
87.62 39 Y
Yttrium
88.906 40 Zr
Zirconium
91.224 41 Nb
Niobium
92.906 42 Mo
Molybdenum
95.94 43 Tc
Technetium
98.907 44 Ru
Ruthenium
101.07 45 Rh
Rhodium 46 Pd
Palladium
106.42 47 Ag
Silver 48 Cd
Cadmium 49 In
Indium 50 Sn
Tin
118.71 51 Sb
Antimony 52 Te
Tellurium
127.6 53 I
Iodine 54 Xe
Xenon
131.29 55 Cs
Cesium
132.91 56 Ba
Barium
137.33 *
57-71 72 Hf
Hafnium
178.49 73 Ta
Tantalum 74 W
Tungsten
183.85 75 Re
Rhenium 76 Os
Osmium
190.23 77 Ir
Iridium
192.22 78 Pt
Platinum
195.08 79 Au
Gold 80 Hg
Mercury
200.59 81 Tl
Thallium 82 Pb
Lead
207.2 83 Bi
Bismuth 84 Po
Polonium
[ ] 85 At
Astatine 86 Rn
Radon 87 Fr
Francium
[223] 88 Ra
[226] **
89-103
104 Rf
Rutherfordium
[261]
105 Db
Dubnium
[262]
106 Sg
Seaborgium
[266]
107 Bh
Bohrium
[264]
108 Hs
Hassium
[269]
109 Mt
Meitnerium
[268]
110 Ds
Darmstadtium
111 Rg
Roentgenium
[272]
112 Cn
Copernicium
[277]
113
Uut
Ununtrium
unknown
114 Fl
Flerovium
[289]
115
Uup
Ununpentium
116 Lv
Livermorium
[298]
117
Uus
Ununseptium
118
Uuo
Ununoctium 57 La
Lanthanum 58 Ce
Cerium 59 Pr
Praseodymium 60 Nd
Neodymium
144.24 61 Pm
Promethium 62 Sm
Samarium
150.36 63 Eu
Europium 64 Gd
Gadolinium
157.25 65 Tb
Terbium 66 Dy
Dysprosium
162.50 67 Ho
Holmium 68 Er
Erbium
167.26 69 Tm
Thulium 70 Yb
Ytterbium
173.04 71 Lu
Lutetium 89 Ac
Actinium 90 Th
Thorium 91 Pa
Protactinium 92 U
Uranium 93 Np
Neptunium 94 Pu
Plutonium 95 Am
Americium 96 Cm
Curium 97 Bk
Berkelium 98 Cf
Californium 99 Es
Einsteinium
[254]
100 Fm
Fermium
101 Md
Mendelevium
258.1
102 No
Nobelium
103 Lr
Lawrencium
2 2A
13 3A A A A A
All column 3A elements have 3 valence electrons and so on…
Atomic mass in [brackets] is for the most stable isotope .

32. All column 8A elements have 8 valence electrons except helium (2ve)1 H
Hydrogen
1.0079
Alkali Metals
Alkaline Earth Metals
Transition Metals
Lanthanides
Actinides
Other Metals
Metalloids
Other Nonmetals
Halogens
Noble Gases 2 He
Helium
4.003 3 Li
Lithium
6.941 4 Be
Beryllium
9.0122 5 B
Boron
10.811 6 C
Carbon
12.011 7 N
Nitrogen
14.007 8 O
Oxygen
15.999 9 F
Fluorine
18.998 10 Ne
Neon
20.180 11 Na
Sodium
22.990 12 Mg
Magnesium
24.305 13 Al
Aluminum
26.982 14 Si
Silicon
28.086 15 P
Phosphorus
30.974 16 S
Sulfur
32.066 17 Cl
Chlorine
35.453 18 Ar
Argon
39.948 19 K
Potassium
39.098 20 Ca
Calcium
40.078 21 Sc
Scandium
44.956 22 Ti
Titanium
47.88 23 V
Vanadium
50.942 24 Cr
Chromium
51.996 25 Mn
Manganese
54.938 26 Fe
Iron
55.933 27 Co
Cobalt
58.933 28 Ni
Nickel
58.693 29 Cu
Copper
63.546 30 Zn
Zinc
65.39 31 Ga
Gallium
69.732 32 Ge
Germanium
72.61 33 As
Arsenic
74.922 34 Se
Selenium
78.09 35 Br
Bromine
79.904 36 Kr
Krypton
84.80 37 Rb
Rubidium
85.468 38 Sr
Strontium
87.62 39 Y
Yttrium
88.906 40 Zr
Zirconium
91.224 41 Nb
Niobium
92.906 42 Mo
Molybdenum
95.94 43 Tc
Technetium
98.907 44 Ru
Ruthenium
101.07 45 Rh
Rhodium 46 Pd
Palladium
106.42 47 Ag
Silver 48 Cd
Cadmium 49 In
Indium 50 Sn
Tin
118.71 51 Sb
Antimony 52 Te
Tellurium
127.6 53 I
Iodine 54 Xe
Xenon
131.29 55 Cs
Cesium
132.91 56 Ba
Barium
137.33 *
57-71 72 Hf
Hafnium
178.49 73 Ta
Tantalum 74 W
Tungsten
183.85 75 Re
Rhenium 76 Os
Osmium
190.23 77 Ir
Iridium
192.22 78 Pt
Platinum
195.08 79 Au
Gold 80 Hg
Mercury
200.59 81 Tl
Thallium 82 Pb
Lead
207.2 83 Bi
Bismuth 84 Po
Polonium
[ ] 85 At
Astatine 86 Rn
Radon 87 Fr
Francium
[223] 88 Ra
[226] **
89-103
104 Rf
Rutherfordium
[261]
105 Db
Dubnium
[262]
106 Sg
Seaborgium
[266]
107 Bh
Bohrium
[264]
108 Hs
Hassium
[269]
109 Mt
Meitnerium
[268]
110 Ds
Darmstadtium
111 Rg
Roentgenium
[272]
112 Cn
Copernicium
[277]
113
Uut
Ununtrium
unknown
114 Fl
Flerovium
[289]
115
Uup
Ununpentium
116 Lv
Livermorium
[298]
117
Uus
Ununseptium
118
Uuo
Ununoctium 57 La
Lanthanum 58 Ce
Cerium 59 Pr
Praseodymium 60 Nd
Neodymium
144.24 61 Pm
Promethium 62 Sm
Samarium
150.36 63 Eu
Europium 64 Gd
Gadolinium
157.25 65 Tb
Terbium 66 Dy
Dysprosium
162.50 67 Ho
Holmium 68 Er
Erbium
167.26 69 Tm
Thulium 70 Yb
Ytterbium
173.04 71 Lu
Lutetium 89 Ac
Actinium 90 Th
Thorium 91 Pa
Protactinium 92 U
Uranium 93 Np
Neptunium 94 Pu
Plutonium 95 Am
Americium 96 Cm
Curium 97 Bk
Berkelium 98 Cf
Californium 99 Es
Einsteinium
[254]
100 Fm
Fermium
101 Md
Mendelevium
258.1
102 No
Nobelium
103 Lr
Lawrencium
2 2A
13 3A A A A A
All column 8A elements have 8 valence electrons except helium (2ve)
Atomic mass in [brackets] is for the most stable isotope .

33. Lewis Dot Structures Column # 1 A-8A = #V.E.s
Dot structures dots represent valence electrons.
Valence electrons are electrons in the outermost energy level of an atom.
Important for Bonding!!!
Six V.E.s +8
The shell model on the right shows an oxygen atom with 8 total electrons. How many of them are valence electrons? O
We draw it like this:
The element symbol in the middle with dots drawn around it. Starting from the right, draw one dot on each side in a clockwise fashion and then double up the dots if necessary.
Key Concept:
Shell diagrams show ALL electrons
Lewis Dot Structures show only the outermost ring (valence electrons)

34. Lewis Dot Structures Column # 1 A-8A = #V.E.s
Draw Dot Structures C
Carbon is in Column 4A so it has four Valence electrons!

35. Lewis Dot Structures
1VE X
2VEs
3VEs
4VEs
5VEs
6VEs
7VEs
8VEs

36. Period 2 Lewis Structures
1VE Li
2VEs Be
3VEs B
4VEs C
5VEs N
6VEs O
7VEs F
8VEs Ne

37. Patterns in Electron Configuration* **
Patterns in Electron Configuration

38. H 1s1 1s22s22p63s23p64s23d104p65s24d105p66s24f145d10 He 1s2 Li 2s1 BeC
2p2 N
2p3 O
2p4
2p5 Ne
2p6 Na
3s1 Mg
3s2 Al
3p1 Si
3p2
3p3
3p4 Cl
3p5 Ar
3p6 K
4s1 Ca
4s2 Sc
3d1 Ti
3d2 V
3d3 Cr
3d5 Mn Fe
3d6 Co
3d7 Ni
3d8 Cu
3d10 Zn Ga
4p1 Ge
4p2 As
4p3 Se
4p4 Br
4p5 Kr
4p6 Rb
5s1 Sr
5s2 Y
4d1 Zr
4d2 Nb
4d4 Mo
4d5 Tc Ru
4d7 Rh
4d8 Pd
4d10 Ag Cd In
5p1 Sn
5p2 Sb
5p3 Te
5p4 I
5p5 Xe
5p6 Cs
6s1 Ba
6s2 * Hf
5d2 Ta
5d3 W
5d4 Re
5d5 Os
5d6 Ir
5d7 Pt
5d9 Au
5d10 Hg
6p1 Pb
6p2 Bi
6p3 Po
6p4 At
6p5 Rn
6p6 Fr
7s1 Ra
7s2 ** Rf
6d2 Db
6d3 Sg
6d4 Bh
6d5 Hs
6d6 Mt
6d7 Ds
6d8 Rg
6d10 Cn La
5d1 Ce
4f15d1 Pr
4f3 Nd
4f4 Pm
4f5 Sm
4f6 Eu
4f7 Gd
4f75d1 Tb
4f9 Dy
4f10 Ho
4f11 Er
4f12 Tm
4f13 Yb
4f14 Lu Ac
6d1 Th Pa
5f26d1 U
5f36d1 Np
5f46d1 Pu
5f6 Am
5f7 Cm
5f76d1 Bk
5f9 Cf
5f10 Es
5f11 Fm
5f12 Md
5f13 No
5f14 Lr

39. Why does each element have a unique set of spectral lines?
Each color of light has a specific size/wavelength/energy.
Each atom has a unique electron configuration resulting in different amounts of energy being given off when an electron jumps back down.
Also each atom has difference energy characteristics since the number of protons differs between atoms.
Every color of light has a specific size and energy.
Opposites attract
Nucleus pulling electrons.
More protons the stronger the pull.
Different energy to jump.

40. Light is Electromagnetic Radiation
Visible Light is just a small part of the total spectrum of Light

41. Full Electromagnetic Spectrum
do notes
God’s Xylophone Usually Vibrates in Many Rooms
Large wavelength (low energy) to Small (high energy)
Gamma rays : we go into space and die! Sun emits these… High energy –nuclear bomb-- incredible hulk….cancer
X rays pass through skin and flesh easily but not bone….x-ray images
Ultraviolet – what give us sunburn…blacklights – bees see in ultraviolet – CSI blood, other bodily fluids
Visible the light we see
Intrared – see heat signatures
Microwaves how our microwaves work…send out waves of certain size…
380 to 700 nm = 3.8x to 7 x 10-7
Radar used for wx radar
Radio—listen to tunes

42. A Wave is a transfer of energy

43. Anatomy of a Wave
The amplitude of a wave is the wave’s height from zero to the crest.
The wavelength, represented by  (the Greek letter lambda), is the distance between the crests.
The frequency, represented by  (the Greek letter nu), is the number of wave cycles to pass a given point per unit of time.
The SI unit of cycles per second is called a hertz (Hz).
Hertz has no known association with rental company…

44. High vs Low Frequency
High frequency more energy….why UV rays harmful…fortunately sun shields us…

45. Make Low and High Frequency waves
Set up a meter stick and have students make waves of varying amplitude…and frequency

46. Some Infrared Photos

47. Image top is a cup of coffee

49. Ultraviolet Radiation
BLACK LIGHTS
Usee Black light markers, show minerals…

50. Flame Test Lab!!!!!