1. The Chemistry of Life Domains of Study Domain of BioMolecules
Domain of Cells
Domain of Organisms
Domain of Populations
Domain of Communities

2. Draw an Atom
Label
Protons
Neutrons
Electrons
Nucleus
Atomic Orbital

3. Why are we studying chemistry?
Chemistry is the foundation of Biology

4. Everything is made of matter Matter is made of atoms
Hydrogen
1 proton
1 electron
Oxygen
8 protons
8 neutrons
8 electrons
Proton +
Neutron
Electron –

5. Different kinds of atoms = elements
The World of Elements H C N O Na Mg P S K Ca
Different kinds of atoms = elements

6. CaSCHNOPK Life requires ~25 chemical elements
About 25 elements are essential for life
Four elements make up 96% of living matter:
• carbon (C) • hydrogen (H)
• oxygen (O) • nitrogen (N)
Four elements make up most of remaining 4%:
• phosphorus (P) • calcium (Ca)
• sulfur (S) • potassium (K)

7. How does this atom behave?
Bonding properties
Effect of electrons
electrons determine chemical behavior of atom
depends on number of electrons in atom’s outermost shell
valence shell
How does this atom behave?

8. How does this atom behave? How does this atom behave?
What’s the Magic #?
Bonding properties
Effect of electrons
chemical behavior of an atom depends on number of electrons in its valence shell
Sulfur on the LEFT
Magnesium on the RIGHT
How does this atom behave?
How does this atom behave?

9. Isotopes
Atoms of an element that have the same atomic number but different mass number.
Elements occur as mixtures of isotopes.

10. Different isotopes of the same element react chemically in the same way. Why?
Some isotopes are radioactive.
Unstable isotope in which the nucleus spontaneously decays, emitting subatomic particles and/or energy as radioactivity.

11. Elements & their valence shells
Elements in the same row have the same number of shells
Moving from left to right, each element has a sequential addition of electrons (& protons)

12. Elements & their valence shells
Elements in the same column have the same valence & similar chemical properties
Oxygen has medium electronegativity so doesn’t pull electrons all the way off hydrogen whereas chlorine would.
So oxygen forms a polar covalent bond.
Carbon has only a weak electronegativity so forms a nonpolar covalent bond

13. Periodic Trends
Electronegativity - a measure of the tendency of an atom to attract a bonding pair of electrons.
What happens if two atoms of equal electronegativity bond together?
What happens if B is slightly more electronegative than A?

14. This tendency drives chemical reactions…
Chemical reactivity
Atoms tend to
complete a partially filled valence shell or
empty a partially filled valence shell
This tendency drives chemical reactions…
and creates bonds – –

15. Ionic Bonds Ion – any atom that has lost or gained an electron.
LE 2-7a-1
Ionic Bonds
Transfer of
electron Na
Sodium atom Cl
Chlorine atom
Ion – any atom that has lost or gained an electron.

16. Sodium chloride (NaCl)
LE 2-7a-2
Ionic Bonds
Na+
Sodium ion
Cl-
Chloride ion
Sodium chloride (NaCl)

17. Bonds in Biology Weak bonds Strong bonds Hydrogen bond hydrogen bonds
H2O
Weak bonds
hydrogen bonds
attraction between + and –
hydrophobic & hydrophilic interactions
interaction with H2O
van derWaals forces
(ionic)
Strong bonds
covalent bonds
H2O
Covalent bond –
H2 (hydrogen gas)

18. Covalent bonds Why are covalent bonds strong bonds? Forms molecules
two atoms share a pair of electrons
both atoms holding onto the electrons
very stable
Forms molecules H
Oxygen – H O
H — H
H2 (hydrogen gas)
H2O (water)

19. Multiple covalent bonds
2 atoms can share >1 pair of electrons
double bonds
2 pairs of electrons
triple bonds
3 pairs of electrons
Very strong bonds
More is better! H
H–C–H –

20. Nonpolar covalent bond
Pair of electrons shared equally by 2 atoms
example: hydrocarbons = CxHx
methane (CH4 )
balanced, stable, good building block

21. Polar covalent bonds Pair of electrons shared unequally by 2 atoms
example: water = H2O
oxygen has stronger “attraction” for the electrons than hydrogen
oxygen has higher electronegativity
water is a polar molecule
+ vs – poles
leads to many interesting properties of water… H
Oxygen + – – – – +

22. Hydrogen bonding Polar water creates molecular attractions Weak bond
attraction between positive H in one H2O molecule to negative O in another H2O
also can occur wherever an -OH exists in a larger molecule
Weak bond H H O
APBio/TOPICS/Biochemistry/MoviesAP/03_02WaterStructure_A.swf

23. Chemistry of Life
Properties of Water

24. Why are we studying water?
More about Water
Why are we studying water?
All life occurs in water
inside & outside the cell

25. Chemistry of water H2O molecules form H-bonds with each other
+H attracted to –O
creates a sticky molecule
APBio/TOPICS/Biochemistry/Movies AP/hydrogenbonds-Thinkwell.swf

26. Elixir of Life Special properties of water 1. cohesion & adhesion
surface tension, capillary action
2. good solvent
many molecules dissolve in H2O
hydrophilic vs. hydrophobic
3. lower density as a solid
ice floats!
4. high specific heat
water stores heat
5. high heat of vaporization
heats & cools slowly
Ice! I could use more ice!

27. Try that with flour… or sugar…
1. Cohesion & Adhesion
Cohesion
H bonding between H2O molecules
water is “sticky”
surface tension
drinking straw
Adhesion
H bonding between H2O & other substances
capillary action
meniscus
water climbs up paper towel or cloth
Try that with flour… or sugar…

28. How does H2O get to top of trees?
Transpiration is built on cohesion & adhesion
APBio/TOPICS/04Biochemistry/MoviesAP/03_03WaterTransport_A.swf
Let’s go to the videotape!

29. 2. Water is the solvent of life
Polarity makes H2O a good solvent
polar H2O molecules surround + & – ions
solvents dissolve solutes creating solutions
What dissolves in water easily?
polar or non-polar molecules?
How about Oxygen? Does that dissolve in H2O?

30. What dissolves in water?
Hydrophilic
substances have attraction to H2O
polar or non-polar?
What dissolves in water easily?
polar or non-polar molecules?
How about Oxygen? Does that dissolve in H2O?

31. What doesn’t dissolve in water?
Hydrophobic
substances that don’t have an attraction to H2O
polar or non-polar?
Oh, look hydrocarbons!
What dissolves in water easily?
polar or non-polar molecules?
How about Oxygen? Does that dissolve in H2O?
fat (triglycerol)

32. And this has made all the difference!
3. The special case of ice
Most (all?) substances are more dense when they are solid, but
not water…
Ice floats!
H bonds form a crystal
And this has made all the difference!

33. Ice floats

34. Why is “ice floats” important?
Oceans & lakes don’t freeze solid
surface ice insulates water below
allowing life to survive the winter
if ice sank…
ponds, lakes & even oceans would freeze solid
in summer, only upper few inches would thaw
seasonal turnover of lakes
sinking cold H2O cycles nutrients in autumn

35. 4. Specific heat H2O resists changes in temperature
high specific heat
takes a lot to heat it up
takes a lot to cool it down
H2O moderates temperatures on Earth

36. Specific heat & climate

37. 5. Heat of vaporization Evaporative cooling
Organisms rely on heat of vaporization to remove body heat

38. Ionization of water & pH
Water ionizes
H+ splits off from H2O, leaving OH–
if [H+] = [-OH], water is neutral
if [H+] > [-OH], water is acidic
if [H+] < [-OH], water is basic
pH scale
how acid or basic solution is
1  7  14
H2O  H+ + OH–

39. tenfold change in H+ ions
10–1
H+ Ion
Concentration
Examples of Solutions
Stomach acid, Lemon juice 1 pH
100
Hydrochloric acid
10–2 2
10–3
Vinegar, cola, beer 3
10–4
Tomatoes 4
10–5
Black coffee, Rainwater 5
10–6
Urine, Saliva 6
10–7
Pure water, Blood 7
10–8
Seawater 8
10–9
Baking soda 9
10–10
Great Salt Lake 10
10–11
Household ammonia 11
10–12
Household bleach 12
10–13
Oven cleaner 13
10–14
Sodium hydroxide 14
pH Scale
tenfold change in H+ ions
pH1  pH2
10-1  10-2
10 times less H+
pH8  pH7
10-8  10-7
10 times more H+
pH10  pH8
10-10  10-8
100 times more H+
In pure water only 1 water molecule in every 554 million is dissociated

40. Buffers & cellular regulation
pH of cells must be kept ~7
pH affects shape of molecules
shape of molecules affect function
pH affects cellular function
Control pH by buffers
reservoir of H+
donate H+ when [H+] falls
absorb H+ when [H+] rises 1 2 3 4 5 6 7 8 9
Amount of base added
Buffering
range pH
Exercise = acidic in muscles
CO2 = carbonic acid
lactic acid
body uses buffers to counter act this

41. Any Questions? Do one brave thing today…then run like hell!
He’s gonna earn a Darwin Award!
Any Questions?
Do one brave thing today…then run like hell!

42. Ice Fishing in Barrow, Alaska