UNIT #1 BIO-What is Biology?
b. Unity Within Diversity
#3 Domains- Archaea-->(4 Kingdoms: Protista, Fungi, Plantae, Animalae), Eukarya Bacteria. -Taxonomy-study of classifying organisms into hierarchies(groups) -Charles Darwin-->Natural Selection Evidence for decent with modification. From a common ancestor.
Draw a graph when given data and then interpret the relationship (positive, negative, none).
(+)-both increasing (-)-one decreases as the other increases None-no relationship, unrelated or connected.
Compare methods for categorizing living organisms at the Kingdom and Domain levels.
Domains: 1.Archaea & 2.Bacteria-HAVE NO NUCLEUS(Prokaryotes),BOTH ARE SINGLE CELLED ORGANISMS,and are microscopic. 3.Eukarya- HAS NUCEUS(Eukaryotes), are single celled and multicelled, has 4 kingdoms: -Protista-algea. -Plantae-all the plants. -Fungi-mushrooms to yeasts. -Animalia-includes animals with and w/o vertebrates.
Define, recognize examples of, and relate to one another: inductive reasoning, deductive reasoning, hypothesis-based science, controlled experiment, observational study, independent variable, dependent variable, controlled variables, discrete data, continuous data, correlation and causation.
Inductive Reasoning-all believed true or found true most of the time. Discrete Data-usually words- colors, groups, months, etc.)Can be numbers (ex. Ranges: Age groups 20-24) Always histogram- BAR graph Continuous Data-Numerical, never stops, ALWAYS SCATTER PLOT(LINE GRAPH),(height, length, weight, age, temperature). Correlation- sort of relationship. Causation-cause and effect
Define evolution, natural selection, and adaptation and describe their relationships to all other discoveries in biology.
Natural Selection-is an evolutionary, mechanism that changes overall genetic compensation of population by favoring the survival and reproduction of individuals best suited to the environment. Individual level, based on enviornment, random process.] Adaptation-good match between population and its habitat.
List and recognize examples of the characteristics displayed by living organisms.
Organization: Cellular Organization Reproduction: Sexual Reproduction Energy Processing(Metabolism): Producers and Consumers Homeostasis:Ability to stay the same. Respond to the Enviornment-> Evolution as Population.
Recognize examples of and apply biology's key themes (listed below) to various scientific discoveries.
Organization: Cellular Organization Reproduction: Sexual Reproduction Energy Processing(Metabolism): Producers and Consumers Homeostasis:Ability to stay the same. Respond to the Enviornment-> Evolution as Population.
Differentiate between a scientific "theory" and a regular person's definition of "theory."
Scientific Theory- explanation based on repeatedly reported facts
Compare and contrast, and recognize examples of the following terms: taxonomy, Archaea, Bacteria, and Eukarya
Taxonomy-study of classifying organisms into hierarchies groups. Archaea/Bacteria-Prokaryotes Eukarya-Eukaryotes
a. Emergent Properties
aka:Biological Hierarchy
Describe the biological hierarchy and define and recognize examples of: atom, molecule, cell, tissue, organ, organ system, individual, population, community, ecosystem, biome, and biosphere.
atom-smallest unit of a chemical element. molecule-two or more atoms held together by strong chemical bonds cell-smallest and most basic unit of life, building blocks of all living things. tissue-collection of coordinated an specialized cells that fulfill a particular function for the organism. A group of cells that performs a unique but fairly narrow set of tasks for the body. organ-body parts composed of different types of tissues functioning in a coordinated manner. organ system-in animals, groups are of organs are networked into organ systems, through large reigons of the body.- individual- population- community- ecosystem- biome- biosphere-
Describe what is meant by the term 'Biology' and give examples of sub-fields within the discipline.
is the study of the life. The exploring, learning, discovering, researching all of life.
Relate the theme of emergent properties to the biological hierarchy.
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