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Westmoreland County Public Schools |
| Research and Inquiry |
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Investigations: Plan/Perform
The learner will be able to review experimental design where variables are assigned and explorations are formulated to test hypotheses. practice making hypotheses based on cause and efect relationships (BIO.1.c).
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Investigations: Plan/Perform/Hypotheses
The learner will be able to plan and perform investigations where hypotheses are created on the basis of observations (BIO.1.b).
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Investigations: Plan/Perform/Research
The learner will be able to plan and perform investigations where research is utilized on the basis of popular and scientific literature (BIO.1.j).
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Investigations: Plan/Perform
The learner will be able to plan and perform investigations where graphing and mathematical calculations are utilized as means for data interpretation (BIO.1.d).
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Investigations: Plan/Perform/Conclusions
The learner will be able to plan and perform investigations where conclusions are made on the basis of recorded quantitative and qualitative data (BIO.1.e).
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Investigations: Plan/Perform/Error
The learner will be able to plan and perform investigations where the effect of sources of error that is implicit in experimental design is recognized and minimized (BIO.1.f).
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Investigations: Plan/Perform/Validity
The learner will be able to plan and perform investigations where the validity of data is found out (BIO.1.g).
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Investigations: Plan/Perform
The learner will be able to plan and perform investigations where alternative explanations and models are identified and interpreted (BIO.1.h).
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Investigations: Plan/Perform/Technology
The learner will be able to plan and perform investigations where the correct technology is utilized for collecting and interpreting data and expressing results (BIO.1.i).
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Investigations: Plan/Perform
The learner will be able to plan and perform investigations where observations of organisms are recorded in the lab and field. recognize experimental constants and independent/dependent variables (BIO.1.a).
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| Life Science |
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Biology: History
The learner will be able to explore and comprehend the history of biological ideas (BIO.2).
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Biology: Scientists
The learner will be able to understand the teamwork of scientists in the past and present: Darwin, Mendel, Hooke, Mayr, Lamarck, Hardy/Weinberg, Watson/Crick (BIO.2.e).
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Biochemistry: Principles
The learner will be able to explore and comprehend the biochemical principles that are required for life (BIO.3).
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Biochemistry: Water
The learner will be able to understand the chemistry of water and how it affects life processes. review atoms, molecules, elements, compounds, and bonding of water molecules. understand pH, diffusion, osmosis (BIO.3.a).
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Biochemistry: Enzymes/Understand
The learner will be able to understand the structure and function of enzymes (BIO.3.c).
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Biochemistry: Macromolecules
The learner will be able to understand the structure and function of macromolecules (lipds, carbohydrates, proteins, nucleic acids). review the six elements of living organisms (carbon, hydrogen, nitrogen, oxygen, phosphorous, sulpher). understand how temperature and pH affect cell function (BIO.3.b).
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Cells: Theory
The learner will be able to understand evidence that substantiates the cell theory (BIO.2.a).
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Cells: Model
The learner will be able to make models of the cell membrane, cell communication, and cell recognition (BIO4.d).
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Cells: Single/Prokaryotes
The learner will be able to understand characterizing prokaryotes focusing on organelles and origin of life [BIO.4.a).
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Cells: Single/Whole
The learner will be able to make interpretations about the actions of a single cell verses the whole organism (BIO.4.c).
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Cells: Multiple/Eukaryotes
The learner will be able to investigate the diversity and differences among eukaryotes focusing on organelles. differentiate between plant and animal cells (BIO.4.b).
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Cells: Mitosis/Meiosis/Sex Cell
The learner will be able to understand the formation of sex cells through meiosis (BIO.6.b).
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Cells: Division
The learner will be able to understand body cell division through mitosis (BIO.6.a).
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Cells: Function and Structure: Relate
The learner will be able to explore and comprehend the interactions between cell structure and function (BIO.4.).
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Cells: Specialization/Understand
The learner will be able to understand cell specialization (BIO.6.c).
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Heredity: Laws
The learner will be able to predict inheritance of characteristics using Mendel's laws of inheritance and utilizing Punnett Squares. differentiate between dominant/recessive and genotype/phenotype (BIO.6.d).
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Protein Synthesis: Understand/Events
The learner will be able to understand the importance of DNA sequence in cells and the events that are necessary to make proteins BIO.6.f).
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Heredity: Protein Synthesis
The learner will be able to explore and comprehend the common ways that inheritance and protein synthesis take place (BIO.6).
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Heredity: DNA/Evolution
The learner will be able to understand the evolution and structure of DNA: double helix shape, nitrogenous base pairs (A<T<C<G), and 5-Carbon sugar/phosphate backbone (BIO.2.d).
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Heredity: Genetics/Mutations
The learner will be able to understand the impact of genetic recombination and mutation (BIO.6.e).
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Heredity: DNA/Technology
The learner will be able to investigate the effect of DNA technologies in gene identification/modification and genetic engineering (BIO.6.g).
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Fossil: Record/Analysis
The learner will be able to understand fossil record analysis (BIO. 7.b).
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Population: Change/Fossil
The learner will be able to investigate evidence for population change in fossil records (BIO.8.a).
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Population: Change/Species
The learner will be able to investigate how new species come into existance (BIO.8.d).
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Population: Change/Survival
The learner will be able to explore how changes in traits, reproductive strategies, and environmental pressures affect population dynamics (BIO.8.b).
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Population: Change/Natural Selection
The learner will be able to identify how adaptations cause Darwin's theory of natural selection (BIO.8.c).
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Population: Change/How
The learner will be able to explore and comprehend how populations alter over time (BIO.8).
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Growth & Development: Liken/Steps
The learner will be able to differentiate between the developmental stages in various organisms (BIO.7.c).
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Growth & Development: Descriptions
The learner will be able to understand scientific descriptions of the development of living things over the course of time (BIO.2.b).
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Ecosystems: Succession/Patterns
The learner will be able to understand succession patterns in ecosystems (BIO.9.c).
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Ecosystems: Populations
The learner will be able to understand the relationships within and between populations including carrying capacity, limiting factors and growth curves. differentiate between abiotic and biotic factors in the environment (BIO.9.a).
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Ecosystems: Local
The learner will be able to interpret local ecosystems (BIO.9.e).
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Ecosystems: Energy/Cycle
The learner will be able to understand nutrient cycling concurrently with energy flow through an ecosystem [BIO.9.b).
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Ecosystems: Equilibria
The learner will be able to explore and comprehend dynamic equilibria in populations, communities and ecosystems BIO.9).
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Ecosystems: Impact
The learner will be able to understand the impact of natural and human activities on ecosystems including competition (BIO.9.d).
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Kingdoms: Explore
The learner will be able to explore and comprehend the life functions of members of all kingdoms (BIO.5).
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Kingdoms: Structure
The learner will be able to compare and contrast the structure of members of the kingdoms (BIO.5.a).
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Kingdoms: Activities
The learner will be able to make a comparison of the metabolic activities of members of the kingdoms. differentiate between autotrophs and heterotrophs (BIO.5.b).
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Kingdoms: Response
The learner will be able to interpret the response of various members of the kingdoms to the environment (BIO.5.c).
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Kingdoms: Homeostasis
The learner will be able to understand how the various kingdoms maintain homeostasis (BIO.5.d).
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Organisms: Classification
The learner will be able to understand schemes for classification that are changeable for new scientific discoveries (BIO.7.f).
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Organisms: Local
The learner will be able to investigate local plants and animals and know hoe to use dichotomous keys (BIO.7.g).
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Organisms: Proteins
The learner will be able to compare and contrast proteins among organisms BIO.7.d).
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Organisms: DNA
The learner will be able to examine DNA patterns in organisms (BIO.7.e).
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Organisms: Classification
The learner will be able to explore and comprehend the basis for present day classification systems (BIO.7).
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Organisms: Structure/Similar
The learner will be able to understand structural similarities in living things by defining species, homologous structures, and embryonic stages in various organisms (BIO.7.a).
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Viruses: Liken
The learner will be able to differentiate viruses and cells and understand what conditions cause viruses to thrive (BIO.5.f).
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Diseases: Causes
The learner will be able to identify the different causes of diseases such as environmental and genetic influences and germ theory (BIO.2.c).
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Organisms: Observe
The learner will be able to observe local organisms (BIO.5.g).
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Respiration & Photosynthesis: Relate
The learner will be able to understand the importance of and the interaction between respiration and photosynthesis. investigate the source of energy for organisms (BIO.3.d).
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Human Health: Issues
The learner will be able to understand human health issues (BIO.5.e).
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Humans: Systems/Understand
The learner will be able to understand body systems, life functions, health issues and human anatomy (BIO.5.e).
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