chapter 2 life ’ s chemical basis
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Chapter 2 Life ’ s Chemical Basis. 2.1 Mercury Rising. Mercury is released into the atmosphere by volcanic activity, and by human activities such as burning coal - PowerPoint PPT PresentationTRANSCRIPT
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Albia Dugger • Miami Dade College
Chapter 2Life’s Chemical
Basis
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2.1 Mercury Rising
• Mercury is released into the atmosphere by volcanic activity, and by human activities such as burning coal
• Once airborne, mercury can drift long distances before settling to Earth’s surface, where microbes convert it to a toxic substance called methylmercury
• Once mercury enters the body, it damages the nervous system, brain, kidneys, and other organs
• All human bodies now have detectable amounts of mercury
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Atmospheric Fallout from Coal-Fired Power Plant Emissions
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2.2 Start With Atoms
• The behavior of elements, which make up all living things, starts with the structure of individual atoms
• The number of protons in the atomic nucleus defines the element, and the number of neutrons defines the isotope
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Structure of Atoms
• Atoms are the building blocks of all substances• Made up of electrons, protons and neutrons
• Charge is an electrical property• Attracts or repels other subatomic particles
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Characteristics of Atoms
• Electrons (e-) have a negative charge• Move around the nucleus
• The nucleus contains protons and neutrons• Protons (p+) have a positive charge• Neutrons (n) have no charge
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Characteristics of Atoms
• Atoms differ in number of subatomic particles• Atomic number (number of protons) determines the
element• Elements consist only of atoms with the same atomic
number
• Mass number• Total protons and neutrons in a nucleus• Used to identify isotopes
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Atoms
proton
neutron
electron
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The Periodic Table
• Periodic table of the elements• An arrangement of the elements based on their atomic
number and chemical properties• Created by Dmitry Mendeleev
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Periodic Table of the Elements
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ANIMATED FIGURE: Atomic number, mass number
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Isotopes and Radioisotopes
• Isotopes • Different forms of the same element, with different
numbers of neutrons
• Some radioactive isotopes – radioisotopes – are used in research and medical applications
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Radioisotopes
• Henri Becquerel discovered radioisotopes of uranium in the late 1800s
• Radioactive decay• Radioisotopes emit subatomic particles of energy when
their nucleus breaks down, transforming one element into another at a constant rate
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Radioactive Decay
• Example: 14C → 14N
nucleus of 14C, with 6 protons, 8 neutrons
nucleus of 14N, with 7 protons, 7 neutrons
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Tracers
• Tracer• Any molecule with a detectable substance attached
• Examples:• CO2 tagged with 14C used to track carbon through
photosynthesis• Radioactive tracers used in medical PET scans
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Figure 2-4 p25
brain
lungs
heart
liver
kidneys
Non-smoker Smoker
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ANIMATED FIGURE: PET scan
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Take Home Message:
The basic building blocks of all matter
• All matter consists of atoms, tiny particles that in turn consist of electrons moving around a nucleus of protons and neutrons
• An element is a pure substance that consists only of atoms with the same number of protons. Isotopes are forms of an element that have different numbers of neutrons
• Unstable nuclei of radioisotopes disintegrate spontaneously (decay) at a predictable rate to form predictable products
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ANIMATION: Subatomic particles
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ANIMATION: Isotopes of hydrogen
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2.3 Why Electrons Matter
• Atoms acquire, share, and donate electrons
• Whether an atom will interact with other atoms depends on how many electrons it has
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About Vacancies
• Electrons move around nuclei in orbitals• Each orbital holds two electrons• Each orbital corresponds to an energy level• An electron can move in only if there is a vacancy
• free radical • Atom with an unpaired electron
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Vacancy/ No Vacancy
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Why Atoms Interact
• The shell model of electron orbitals diagrams electron vacancies; filled from inside out• First shell: one orbital (2 electrons)• Second shell: four orbitals (8 electrons)• Third shell: four orbitals (8 electrons)
• Atoms with vacancies in their outer shell tend to give up, acquire, or share electrons
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6
B The second shell corresponds to the second energy level, and it can hold up to 8 electrons. Carbon has 6 protons, so its first shell is full. Its second shell has 4 electrons, and four vacancies. Oxygen has 8 protons and two vacancies. Neon has 10 protons and no vacancies.
neon (Ne)second shell carbon (C) oxygen (O)
8 10
C The third shell, which corresponds to the third energy level, can hold up to 8 electrons. A sodium atom has 11 protons, so its first two shells are full; the third shell has one electron. Thus, sodium has seven vacancies. Chlorine has 17 pro tons and one vacancy. Argon has 18 protons and no vacancies.
third shell argon (Ar)chlorine (Cl)sodium (Na)
181711
A The first shell corresponds to the first energy level, and it can hold up to 2 electrons. Hydrogen has one proton, so it has 1 electron and 1 vacancy. A helium atom has 2 protons, 2 electrons, and no vacancies. The number of protons in each model is shown.
first shell hydrogen (H) helium (He)
11 proton1 electron
2
Stepped Art
Figure 2-5 p26
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ANIMATED FIGURE: The shell model of electron distribution
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Atoms and Ions
• Ion• An atom with a positive or negative charge due to loss or
gain of electrons in its outer shell• Examples: Na+, Cl-
• Electronegativity• A measure of an atom’s ability to pull electrons from
another atom
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Figure 2-6 p27
electron loss electron gain
Sodium atom
Chlorine atom
charge: 0 charge: 0
Sodium ion
Chloride ion
11p+ 10e–
17p+ 18e–
charge: +1 charge: –1
11p+ 11e–
17p+ 17e–
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ANIMATED FIGURE: Ionic bonding
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Take-Home Message:Why do atoms interact?
• An atom’s electrons are the basis of its chemical behavior
• Shells represent all electron orbitals at one energy level in an atom; when the outermost shell is not full of electrons, the atom has a vacancy
• Atoms with vacancies tend to interact with other atoms
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2.4 Chemical Bonds:From Atoms to Molecules
• Chemical bonds link atoms into molecules
• The characteristics of a chemical bond arise from the properties of the atoms taking part in it
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Chemical Bonds
• Chemical bond• An attractive force existing between two atoms when their
electrons interact
• Molecule• Two or more atoms joined in chemical bonds
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Combining Substances
• Compounds• Molecules consisting of two or more elements whose
proportions do not vary• Example: Water (H2O)
• Mixture• Two or more substances that intermingle but do not bond;
proportions of each can vary
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The Water Molecule
one oxygen atom
two hydrogen atoms
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Bonds and Electrons
• Whether one atom will bond with others depends on the element, and the number and arrangement of its electrons
• electronegativity • Measure of the ability of an atom to pull electrons away
from other atoms
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Three Types of Bonds
• The characteristics of a bond arise from the properties of the atoms that participate in it
• The three most common types of bonds in biological molecules are ionic, covalent, and hydrogen bonds
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Ionic Bonds
• Ionic bond• A strong mutual attraction between two oppositely charges
ions with a large difference in electronegativity (no electron transferred)
• Example: NaCl (table salt)
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Ionic Bond: Sodium Chloride
ionic bond
Sodium ion 11p+, 10e–
Chloride ion 17p+, 18e–
11 17
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Ionic Bond: Sodium Chloride
Cl– Na+
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Ionic Bond: Sodium Chloride
positive charge
negative charge
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ANIMATED FIGURE: How atoms bond
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Covalent Bonds
• Covalent bond• Two atoms with similar electronegativity and unpaired
electrons sharing a pair of electrons• Can be stronger than ionic bonds• Atoms can share one, two, or three pairs of electrons
(single, double, or triple covalent bonds)
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Characteristics of Covalent Bonds
• Nonpolar covalent bond• Atoms sharing electrons equally; formed between atoms
with identical electronegativity
• Polar covalent bond• Atoms with different electronegativity do not share
electrons equally; one atom has a more negative charge, the other is more positive
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Polarity
• Polarity• Separation of charge into distinct positive and negative
regions in a polar covalent molecule• Example: Water (H2O)
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Figure 2-9 p29
molecular hydrogen (H2)
molecular oxygen (O2)
water (H2O)
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ANIMATED FIGURE: Covalent bonds
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Table 2-1 p29
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Take-Home Message:How do atoms interact in chemical bonds?
• A chemical bond forms between atoms when their electrons interact
• A chemical bond may be ionic or covalent depending on the atoms taking part in it
• An ionic bond is a strong mutual attraction between two ions of opposite charge
• Atoms share a pair of electrons in a covalent bond; when the atoms share electrons unequally, the bond is polar
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2.5 Hydrogen Bonds and Water
• The unique properties of liquid water arise because of the water molecule's polarity
• Extensive hydrogen bonds form among water molecules
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Polarity of the Water Molecule
• Overall, water (H2O) has no charge
• The water molecule is polar• Oxygen atom is slightly negative• Hydrogen atoms are slightly positive
• Hydrogen bonds form between water molecules• Gives water unique properties
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Polarity of the Water Molecule
negative charge
positive charge
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Hydrogen Bonding
• Hydrogen bond• A weak attraction between a highly electronegative atom
and a hydrogen atom taking part in a separate polar covalent bond
• Hydrogen bonds do not form molecules and are not chemical bonds
• Hydrogen bonds stabilize the structures of large biological molecules
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Figure 2-11a p31
a hydrogen bond
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Figure 2-11b p31
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Figure 2-11c p31
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ANIMATED FIGURE: Structure of water
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Water’s Special Properties
• Living organisms are mostly water; all the chemical reactions of life are carried out in water
• Water is essential to life because of its unique properties
• The properties of water are a result of extensive hydrogen bonding among water molecules
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Water Has Cohesion
• Hydrogen bonds give water cohesion• Provides surface tension• Draws water up from roots of plants
• Cohesion• Molecules resist separation from one another
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Water Cohesion and Surface Tension
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Water Stabilizes Temperature
• Compared with other molecules, water absorbs more heat before it becomes measurably hotter
• Temperature• A way to measure the energy of molecular motion• Molecules move faster as they absorb heat
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Water Stabilizes Temperature
• The surface temperature of water decreases during evaporation
• Evaporation• Conversion of a liquid to a gas by heat energy
• Ice is less dense than liquid water• Hydrogen bonds form a lattice during freezing
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Water is a Solvent
• Solvent• A substance (usually liquid) that can dissolve other
substances (solutes)
• Water is a solvent• The collective strength of many hydrogen bonds pulls ions
apart and keeps them dissolved
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Water is a Solvent
• Water dissolves polar molecules• Hydrogen bonds form between water molecules and other
polar molecules• Polar molecules dissolved by water are hydrophilic
(water-loving)• Nonpolar (hydrophobic) molecules are not dissolved by
water
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Water Molecules Surrounding an Ionic Solid
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Take-Home Message: What gives water the special properties that make life possible?
• The polarity of a water molecule gives rise to extensive hydrogen bonding among water molecules
• Hydrogen bonding among water molecules imparts cohesion to liquid water, and the ability to stabilize temperature and dissolve many substances
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2.6 Acids and Bases
• pH is a measure of the number of hydrogen ions in a solution• The more hydrogen ions, the lower the pH• pH 7 is neutral (pure water)• Most biological processes occur within a narrow range of
pH, typically around pH 7
• Concentration refers to the amount of a particular solute that is dissolved in a given volume of fluid
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Figure 2-12 p32
battery acid— 0
— 1 gastric fluid
— 2 lemon juice
— 3
tomatoes, winebananas
orange juice
vinegarcola
acid rain
— 4beerbread
— 5black coffeeurine, tea, typical rain
— 6 butter
corn
milk
— 7
blood, tearsegg white
pure water
— 8 seawater
baking soda
— 9 Tums
toothpaste— 10 hand soap
milk of magnesia
detergents
— 11
— 12 hair remover
household ammonia
bleach
— 13 oven cleaner
— 14 drain cleaner
mo
re b
asic
mo
re a
cid
ic
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Biological Reactions Occur In Water
• Molecules in water (H2O) can separate into hydrogen ions (H+) and hydroxide ions (OH-)
H20 ↔ H+ + OH-
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Acids and Bases
• Acids donate hydrogen ions in a water solution• pH below 7
• Bases accept hydrogen ions in a water solution• pH above 7
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Acids: Weak or Strong
• Acids and bases can be weak or strong• Gastric fluid, pH 2-3• Acid rain
• Example: Hydrochloric acid is a strong acid
HCl ↔ H+ + Cl-
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Salts
• Salt• A compound that dissolves easily in water and releases
ions other than H+ and OH-
HCl (acid) + NaOH (base) → NaCl (salt) + H20
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Buffers Against Shifts in pH
• Buffer• A set of chemicals (a weak acid or base and its salt) that
can keep the pH of a solution stable
OH- + H2CO3 (carbonic acid) → HCO3
- (bicarbonate) + H20
H+ + HCO3- (bicarbonate) →
H2CO3 (carbonic acid)
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Buffering Carbon Dioxide in Blood
• Carbon dioxide in blood forms carbonic acid, which separates into H+ and bicarbonate
H2O + CO2 (carbon dioxide) →
H2CO3 (carbonic acid) →
H+ + HCO3- (bicarbonate)
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Take Home Message: Why is hydrogen important in biological systems?
• pH reflects the number of hydrogen ions in a fluid. Most biological systems function properly only within a narrow range of pH
• Acids release hydrogen ions in water; bases accept them
• Salts release ions other than H+ and OH–
• Buffers help keep pH stable. Inside organisms, they are part of homeostasis
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Table 2-1 p34