Title: The Chemical Basis of Life
1The Chemical Basis of Life
- Biological function starts
- at the chemical level...
2Objectives Section 1
- Define element, atom, compound, and molecule.
- Draw a model of the structure of an atom.
- Explain what determines an atoms stability.
- Contrast ionic, covalent, and hydrogen bonding.
3Matter ____.
iRespond Question
Multiple Choice
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A.) is anything that occupies space.
B.) is anything that has mass.
C.) make up the universe.
D.) all of the above.
E.)
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5Mass is ____.
iRespond Question
Multiple Choice
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A.) different on the moon and on Earth,
B.) measured in pounds.
C.) the amount of matter in an object.
D.) only measured through submersion.
E.)
6Lets review
- Mass - the measurement of the amount of matter in
an object. - Mass and weight are NOT the same!
- Weight is the pull of gravity on an objects
mass.
74 states of matter solid, liquid, gas and plasma
- Solid anything that has both a definite
________ and a definite _________. - Liquid anything that has definite ________ but
no definite ______. - Gas has no definite ________ and no definite
__________, it takes the shape and volume of the
container into which it is placed.
shape
volume
volume
shape
volume
shape
8- Plasma has no definite volume or shape and is
composed of electrical charged particles.
- Plasmas are conductive assemblies of charged
particles, neutrals and fields that exhibit
collective effects. Further, plasmas carry
electrical currents and generate magnetic fields.
Plasmas are the most common form of matter,
comprising more than 99 of the visible universe
9Northern Lights a.k.a. Aurora Borealis
- What causes them?
- Northern lights originate from our sun. During
large explosions and flares, huge quantities of
solar particles are thrown out of the sun and
into deep space. These plasma clouds travel
through space with speeds varying from 300 to
1000 kilometers per second. - Takes 2-3 days to reach Earth.
10Color is determined by the gas that emits the
photon.
11A substance that cannot be broken down into other
substances by ordinary chemical means.
iRespond Question
Multiple Choice
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A.) molecule
B.) element
C.) macromolecule
D.) covalent
E.)
12Element
- 92 naturally occurring elements
- about 12 man made
13- Carbon, hydrogen, oxygen, and nitrogen make up
the bulk of living matter, but there are other
elements necessary for life
Table 2.2
14- Goiters are caused by iodine deficiency
Figure 2.2
15The Periodic Table
- A chart with all of the known elements arranged
providing information for each. Ex. Atomic
number, atomic mass number and chemical symbol
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17The simplest particle of an element that retains
all the properties of the element is _____.
iRespond Question
Multiple Choice
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A.) atom
B.) beta particle
C.) molecule
D.) alpha particle
E.)
18Atoms
- Composed of 3 kinds of particles,
- protons (p)
- neutrons (n0)
- electrons (e-) orbiting the nucleus.
- Most of the mass of an atom is
concentrated in its
_____________.
found in the atoms nucleus
nucleus
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20The Nucleus Protons Neutrons
- Protons ALL atoms of a given element have the
same number of protons. - This number is called the ______________.
- The number of protons defines the element.
Atomic Number
21- Neutrons
- How do you determine the number of neutrons?
- Zero electrical charge.
- The number can vary between atoms of the same
element, creating __________
isotopes
22- The number of neutrons may vary
-
- Some isotopes are radioactive
Table 2.4
23Radioactive isotopes can help or harm us
- Radioactive isotopes can be useful tracers for
studying biological processes - PET scanners use radioactive isotopes to create
anatomical images
Figure 2.5B
Figure 2.5A
24Outside the nucleus...
- Electrons high energy particles with very
little mass and a negative charge. - Move about the nucleus at very high speeds in one
of seven different energy (E) levels. - Electrons in outer E levels have more E than
those is inner levels. - Each E level (shell) can hold only a certain
number of electrons. - 1st level 2 electrons
- 2-7 level up to 8 electron
- A stable atom is an atom that has a full outer
level (The Octet Rule)
25- Atoms whose shells are not full tend to interact
with other atoms and gain, lose, or share
electrons
Outermost electron shell (can hold 8 electrons)
Electron
First electron shell (can hold 2 electrons)
HYDROGEN (H) Atomic number 1
CARBON (C) Atomic number 6
NITROGEN (N) Atomic number 7
OXYGEN (O) Atomic number 8
Figure 2.6
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27Important concepts
- The identity of an element is determined by its
number of protons. - Atoms are electrically neutral. This means that
the number of protons an element has is also the
number of electrons the element has. - Most atoms Do Not have a full outer level, this
drives chemical reactions.
28 - ____________ - a substance containing two or more
elements in a fixed ratio. - Chemical formulas shows the kind and proportion
of atoms of each element that forms a particular
compound. - Ex. Table salt NaCl, Water H2O
Compound
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30- Since most atoms are not stable in their natural
state and tend to undergo chemical reactions,
combining in ways that cause their atoms to
become stable. - In chemical reactions, chemical bonds are broken,
atoms are rearranged, and new chemical bonds,
or attachments,
are formed.
31Covalent Bond
- Forms when two or more atoms share one or more
pairs of electrons. - Results in the formation of molecules, simplest
part of a substance that retains all the
properties of the substance. - The strongest of the bonds.
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34- Molecules can be represented in many ways
Table 2.8
35Ionic Bond
- Forms when there is a transfer of electrons
creating charged atoms (ions) which are then
attracted to each other due to their opposite
charges. - 2nd strongest bond
- Ex. Table salt (NaCl)
36IONS
- When atoms gain or lose electrons, charged atoms
called ions are created - cation loses e- and has an overall positive
charge - anion gains e- and has an overall negative
charge
37- Sodium and chloride ions bond to form sodium
chloride, common table salt
Na
Cl
Figure 2.7B
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39Energy (The big E!)
- Energy (E) is the ability to do work or cause
change. - Types of E chemical, thermal, electrical, and
mechanical - As E flows through an organism, it is often
converted from one form to another. Ex.
Chemical E found in food converts into thermal E
(heat) and mechanical E (move bone). - All chemical reactions involve E.
40Exergonic Reactions
- Chemical reactions which involve a net release of
free E. - Ex. Cellular respiration - the chemical reaction
in which sugars are broken down to CO2 and H2O,
releasing E. - Requires an initial input of E to get the
reaction started, called activation E.
41Endergonic Reactions
- Reactions that involve a net absorption of free
energy. - Ex. photosynthesis - the chemical reaction in
which CO2 and H2O are combined to make sugars,
storing E E. - Requires an initial input of E to get the
reaction started, called activation E.
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43- In many chemical reactions, the amount of energy
needed to start the reaction, called ACTIVATION
ENERGY, is high. - Certain chemical substances, known as CATALYSTS,
reduce the amount of activation energy needed. A
reaction in the presence of a catalyst will
proceed spontaneously or with the addition of a
small amount of E. - ENZYMES are an important class of catalysts
in living things. A single organism may
have thousands of different enzymes.
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45Reduction-Oxidation Reactions
- Many of the chemical reactions that help transfer
E in living things involve the transfer of
electrons. - These reactions in which e- are transferred
between atoms are known as - REDUCTION-OXIDATION REACTIONS, OR REDOX
REACTIONS. - Ex. The formation of table salt
- LEO the lion goes GER
- LEO losing electrons is oxidation
- GER gaining electrons is reduction
46- In an OXIDATION REACTION, a reactant LOSES One or
More e-, becoming more POSITIVE in charge. The
Sodium atom undergoes oxidation to form Na ion. - 4. In a REDUCTION REACTION, a reactant GAINS One
or more E-, Becoming more NEGATIVE in charge. The
Chlorine atom undergoes Reduction to form Cl-
ion. - 5. REDOX REACTIONS ALWAYS OCCUR TOGETHER. An
Oxidation Reaction occurs, and the e- given up by
one substance is then accepted by another
substance in a Reduction Reaction.
47Solutions
- Types of mixtures in which one or more substances
are uniformly distributed in another substance. - Can be solids (brass), liquids (sugar water), and
gases (air).
48- A saturated solution is one in which no more
solute can dissolve. - An aqueous (aq) solution is one in which water is
the solvent. Ex. Nutrients in moist soil, fluid
in and around body cells
- Solute - the substance dissolved in the solution.
- Solvent - the substance in which the solute is
dissolved. - Water is the universal solvent (Why?)
- Concentration - the measurement of the amount of
solute dissolved in a fixed amount of the
solution.
49Acids and Bases
- Acid A solution that has an excess of H ions.
It comes from the Latin word acidus that means
"sharp". - Base A solution that has an excess of OH- ions.
Another word for base is alkali.
50Acids and Bases
- The pH scale measures the relative concentration
of H ions to OH- ions. - Acids pH from 0-6.9
- The lower the pH the stronger the acid
- Neutral pH of 7
- Base pH of 7.1-14
- The high the pH the stronger the base
51- The control of pH is important for living things.
- Enzymes can function only within a very narrow pH
range. - The control of pH in organisms is often
accomplished with buffers. - Buffers are chemical substances that neutralize
small amounts of either an acid or a base added
to a solution, preventing rapid/large swings in
pH.
52- Some of your body's fluids, such as stomach acid
and urine, are acidic. Others, such as intestinal
fluid and blood are basic. - Complex buffering systems maintain the pH values
of your body's many fluids at normal or safe
levels.
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54pH of cytoplasm 7.2 (resting cell)
But the pH of cell sap may be alkaline (9 in
Begonia) or acidic (2.4 in Lemon).
- Many biochemical pathways are affected by the
degree of acidity in the nucleus or cytoplasm in
which they occur. In order for enzymatic
reactions to proceed with the highest efficiency,
the pH of the medium must be controlled
(homeostasis!)
55This diagram shows the diffusion directions for
H, CO2, and O2 between the blood and the muscle
cells during exercise. The resulting
concentration changes affect the buffer
equilibria, shown in the upper right-hand corner
of the diagram (yellow).
56The following steps outline the processes that
affect the buffers in the blood during exercise.
- Hemoglobin carries O2 from the lungs to the
muscles through the blood. - The muscles need more O2 than normal, because
their metabolic activity is increased during
exercise. The amount of oxygen in the muscle is
therefore depleted in the muscles, setting up a
concentration gradient between the muscle cells
and the blood in the capillaries. Oxygen diffuses
from the blood to the muscles, via this
concentration gradient. - The muscles produce CO2 and H as a result of
increased metabolism, setting up concentration
gradients in the opposite direction from the O2
gradient. - The CO2 and H flow from the
muscles to the blood, via these
concentration gradients.
57Blood Buffers Cont
- The buffering action of hemoglobin picks up the
extra H and CO2. - If the amounts of H and CO2 exceed the capacity
of hemoglobin, they affect the carbonic acid
equilibrium. As a result, the pH of the blood is
lowered, causing acidosis.
- Hence, the body has developed finely-tuned
chemical processes (based on buffering and
acid-base equilibria) that work in combination to
handle the changes that exercise produces. - The lungs and kidneys respond to pH changes by
removing CO2, HCO3 -, and H from the blood.
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