SG 4 Flashcards
Describe how our planet consists of many complex, large-scale, interacting systems. What patterns help us understand how our planet “works”?
They interact with and influence one another through the exchange of matter and energy.
A network of relations that interact- lithosphere, hydrosphere, biosphere, and atmosphere.
Describe and give examples of negative and positive feedback loops. Which type of feedback stabilizes a system?
Which type is destabilizing? Which type is rare in nature but common in systems disturbed by human activities?
Pos. loops drive a system to extreme. Increase in output leads to increase in input, leading to further increase in output. Rare in nature. Nutrient overenrichment, blooms of algae, increased production of organic matter, decomposition, and hypoxia
Neg. loops create balance. The output of a system also acts as the input, driving the system in the opposite direction.
Describe the structure and components of an atom. Distinguish between an isotope and an ion.
There are three parts of an atom: protons, neutron, and electrons. Protons have a positive charge, electrons have a negative charge, and neutrons possess no net charge.
Isotopes - Atoms of a given element with
differing numbers of neutrons
Ions - Atoms that gain or lose electrons and thus become electrically charged (+ or -)
Distinguish between covalent, ionic, and hydrogen bonds. Which type of bond is the strongest?
Covalent bond = form when two or more atoms share the electrons in their outer shells H2O, CO2
Ionic bond = charged atoms held together by electrical attraction. Salts like NaCl
*Hydrogen bond = are the attraction formed between a slightly positively charged hydrogen atom and another
slightly negatively charged atom
-Account for the unique properties of water and the geometric shape of many biological molecules
Describe the importance of water and be able to recognize its unique chemical properties.
Exhibits cohesion and adhesion.
Resists temperature changes.
Water as ice is less dense than liquid so floats.
Important in biological solutions and reactions.
Essential for life
Define an acid and a base. Distinguish between acids and bases.
Base- property of a solution in which the concentration of hydroxide ions is greater than concentration of hydrogen. Bases—substances that either take up H+ or release OH-
Acids—substances that dissociate in H2O,
releasing H+
Understand how hydrogen ions determine acidity. Be able to read a pH scale and recognize the pH of normal rainwater, seawater, and acid rain.
Acid rain- 4, normal rainwater- 5.5, seawater- >8
A pH of 7 is neutral. A pH less than 7 is acidic. A pH greater than 7 is basic.
Distinguish between inorganic and organic compounds. What are hydrocarbons?
Hydrocarbons - consist solely of C and H. Simplest is methane gas. Crude oil is a complex mixture of 100s of them.
Define energy and be able to distinguish between potential and kinetic energy. Recognize that chemical energy is a form of potential energy and describe how living and economics systems utilize this energy.
P: Stored energy. Water behind a dam.
K: Associated with motion. Water released from a dam.
Give examples of energy transformations. Understand that they are usually not 100% efficient. Some energy is “lost” or “escapes” often in the form of heat.
Plant eats sun, cat eats plat, hawk eats cat.
Describe the first and second laws of thermodynamics. How does burning firewood demonstrate an increase in entropy and the second law of thermodynamics?
The first law, also known as Law of Conservation of Energy, states that energy cannot be created or destroyed in an isolated system. Second law energy changes from a more-ordered to a less ordered state
entropy- an increasing state of disorder. living organisms resist entropy (get energy) dead organisms increase in entropy (no energy, decomposition)
increase in entropy burning firewood demonstrates the second law of thermodynamics. ex: potential energy (stored in the molecular bonds of wood) - kinetic energy (released as heat and light) - increase in entropy.
Know that light energy from the sun powers most living systems.
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What are autotrophs or producers? What are heterotrophs or consumers?
An organism capable of synthesizing its own food from inorganic substances using light or chemical energy. Green plants, algae, and certain bacteria are autotrophs.
An organism that cannot manufacture its own food and instead obtains its food and energy by taking in organic substances, usually plant or animal matter. All animals, protozoans, fungi, and most bacteria are heterotrophs.
Describe and distinguish between the processes of photosynthesis and cellular respiration.
the process by which green plants and some other organisms use sunlight to synthesize foods from carbon dioxide and water. Photosynthesis in plants generally involves the green pigment chlorophyll and generates oxygen as a byproduct.
The term cellular respiration refers to the biochemical pathway by which cells release chemical energy from the chemical bonds of food molecules and provide that energy for the essential processes of life.
Define ecosystem. Give examples of ecosystems.
A biological community of interacting organisms and their physical environment
Wetlands, forest, ocean
