chapter 2 college environmental science basics review
TRANSCRIPT
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CHAPTER 2COLLEGE ENVIRONMENTAL SCIENCE
Basics Review
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Matter
Matter: all material in the universe that has mass and occupies space It can be solid, liquid, or gas
Law of conservation of matter: matter can be transformed from one type of substance into others But it cannot be destroyed or created
Because the amount of matter stays constant It is recycled in nutrient cycles and ecosystems We cannot simply wish pollution and waste away
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Elements
Element: a fundamental type of matter A chemical substance with a given set of properties Examples: nitrogen, phosphorus, oxygen 92 natural and 20 artificially created elements exist
Nutrients: elements needed in large amounts by organisms Examples: carbon, nitrogen, calcium
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Atoms
Atoms: the smallest components that maintain an element’s chemical properties
The atom’s nucleus (center) has protons (positively charged particles) and neutrons (lacking electric charge) Atomic number: the number of protons
Electrons: negatively charged particles surrounding the nucleus Balance the protons’ positive charge
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The structure of an atom
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Isotopes and ionsIsotopes: atoms of an element with
different numbers of neutronsMass number: the number of protons +
neutronsIsotopes of an element behave
slightly differently Ions: atoms that gain
or lose electrons They are electrically
charged
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Some isotopes are radioactive and decay
Radioactive isotopes shed subatomic particles and emit high-energy radiation They decay until they become nonradioactive stable
isotopesHalf-life: the amount of time it takes for one-
half of the atoms in a radioisotope to give off radiation and decay Different radioisotopes have different half-lives ranging
from fractions of a second to billions of years Uranium-235, used in commercial nuclear power, has a
half-life of 700 million years
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Molecules and compoundsAn attraction for each other’s electrons bonds
atomsMolecules: combinations of two or more
atomsChemical formula: indicates the type and
number of atoms in the molecule (oxygen gas: O2)
Compound: a molecule composed of atoms of two or more different elements Water: two hydrogen atoms bonded to one oxygen atom:
H2O Carbon dioxide: one carbon atom with two oxygen
atoms: CO2
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Atoms are held together with bonds
Ionic bonds: ions of different charges bind together Table salt (NaCl): the Na+ ion is bound to the Cl– ion
Covalent bond: atoms without electrical charges “share” electrons Example: hydrogen atoms share electrons – H2
Solutions: electrons, molecules and compounds come together with no chemical bonding Air contains O2, N2, H2O, CO2, methane (CH4), ozone
(O3) Human blood, ocean water, plant sap, metal alloys
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Ionic bonds
Animation: Ionic BondsRight-click / Select “Play”
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Covalent bonds
Animation: Covalent Bonds
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Hydrogen ions determine acidityWater can split into H+ and OH–
The pH scale quantifies the acidity or basicity of solutions
Acidic solutions: pH < 7 Contain more H+
Basic solutions: pH > 7 Contain more OH–
Neutral solutions: pH: 7
A pH of 6 contains 10 times as many H+ as a pH of 7
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Matter is composed of compounds
Living things depend on organic compoundsOrganic compounds: carbon atoms bonded
together They may include other elements: nitrogen, oxygen,
sulfur, and phosphorusCarbon can be linked in elaborate chains,
rings, other structures Forming millions of different organic compounds
Inorganic compounds: lack the carbon–carbon bond
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Carbon skeletons
Animation: Carbon Skeletons
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Polysaccharides
Animation: Polysaccharides
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Hydrocarbons
Hydrocarbons: organic compounds that contain only carbon and hydrogen The simplest hydrocarbon is methane (natural gas)
Fossil fuels consist of hydrocarbons Crude oil contains hundreds of types of hydrocarbons
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Macromolecules are building blocks of life
Polymers: long chains of repeated organic compounds Play key roles as building blocks of life
Three essential types of polymers: Proteins Nucleic acids Carbohydrates
Lipids are not polymers, but are also essential Fats, oils, phospholipids, waxes, steroids
Macromolecules: large-sized molecules essential to life
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Proteins are long chains of amino acids
Proteins comprise most of an organism’s matter
They produce tissues, provide structural support, store energy, transport material
Animals use proteins to generate skin, hair, muscles, and tendons
Some are components of the immune system or hormones (chemical messengers)
They can serve as enzymes: molecules that promote (catalyze) chemical reactions
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Nucleic acids direct protein production
Deoxyribonucleic acid (DNA) and ribonucleic acid (RNA) carry hereditary information of organisms
Nucleic acids: long chains of nucleotides that contain sugar, phosphate,and a nitrogen base
Genes: regions of DNA that code for proteins that perform certain functions
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DNA and RNA structure
Animation: DNA and RNA Structure
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DNA double helix
Animation: DNA Double Helix
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Carbohydrates and lipidsCarbohydrates: include simple sugars and
large molecules of simple sugars bonded together
Glucose fuels cells and builds complex carbohydrates
Plants store energy in starch, a complex carbohydrate Animals eat plants to get starch
Organisms build structures from complex carbohydrates Chitin forms shells of insects and crustaceans Cellulose found in cell walls of plants
Lipids do not dissolve in water Fats and oils (energy), waxes (structure), steroids
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Cells compartmentalize macromolecules
All living things are composed of cells: the most basic unit of organismal organization
Cells vary in size, shape, and function They are classified according to their structure
Eukaryotes: plants, animals, fungi, protists Contain a membrane-enclosed nucleus Their membrane-enclosed organelles do specific things
Prokaryotes: bacteria and archaea Single-celled, lacking membrane-enclosed nucleus and
organelles
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Energy fundamentals
Energy: an intangible phenomenon that can change the position, physical composition, temperature of matter Involved in biological, chemical, physical processes
Potential energy: energy of positionKinetic energy: energy of motionChemical energy: potential energy held in
the bonds between atomsChanging potential into kinetic energy
Releases energy Produces motion, action, or heat
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Potential vs. kinetic energy
Potential energy stored in our food becomes kinetic energy when we exercise and releases carbon dioxide, water, and heat as by-products
Insert Figure 2.11
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Energy is conserved but changes in qualityFirst law of thermodynamics: energy can
change form but cannot be created or destroyed
Second law of thermodynamics: energy changes from a more-ordered to a less-ordered state Entropy: an increasing state of disorder
Living organisms resist entropy by getting energy from food and photosynthesis Dead organisms get no energy and through
decomposition lose their organized structure
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The sun’s energy powers living systems
Energy that powers Earth’s ecological systems comes mainly from the sun
The sun releases radiation from the electromagnetic spectrum Some is visible light
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Using solar radiation to produce foodAutotrophs
(producers): organisms that use the sun’s energy to produce their own food Plants, algae, cyanobacteria
Photosynthesis: the process of turning the sun’s light energy into high-quality chemical energy Sunlight converts carbon
dioxide and water into sugars
Moving to lower entropy
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6CO2 + 6H2O + sun’s energy C6H12O6 (sugar) + 6O2
Photosynthesis produces food
Chloroplasts: organelles where photosynthesis occurs Contain chlorophyll: a light-absorbing pigment Light reaction: solar energy splits water and creates
high-energy molecules that fuel the … Calvin cycle: links carbon atoms from carbon dioxide
into sugar (glucose)
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Light and pigments
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Cellular respiration releases energyIt occurs in all living things (plants, animals, etc.)
Organisms use chemical energy created by photosynthesis Oxygen breaks the high-energy chemical glucose
bonds The energy is used to make other chemical bonds or
tasksHeterotrophs: organisms that gain energy by
feeding on others Animals, fungi, microbes The energy is used for cellular tasks
C6H12O6 (sugar) + 6O2 6CO2 + 6H2O + energy