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Subject Grade Level 5 Science NS.1.5.1 NS.1.5.2 NS.1.5.3 NS.1.5.4 NS.1.5.5 NS.1.5.6 NS.1.5.7 NS.1.5.8 NS.1.5.9 Make accurate observations Identify and define components of experimental design used to produce empirical evidence: hypothesis, repli Calculate mean, median, mode, and range from scientific data using SI units Intepret scientific data using: data tables/charts, bar graphs, circle graphs, line graphs, stem and leaf plots, Communicate results and conclusions from scientific inquiry Develop and implement strategies for long-term, accurate data collection Summarize characteristics of science Explain the role of observation in the development of a theory Define and give examples of hypotheses LS.2.5.1 LS.2.5.10 LS.2.5.11 LS.2.5.3 Compare cell theory to the characteristics of a scientific theory Conduct investigations demonstrating the process of cellular respiration Investigate careers, scentists, and historical breakthroughs related to cells Describe the similarities of basic cell functions in all organisms Tuesday, November 13, 2007 Page 164 of 253

LS.2.5.4 LS.2.5.5 LS.2.5.6 LS.2.5.7 LS.2.5.8 LS.2.5.9 LS.8.5.2 Model and identify the parts of animal cells and plant cells: cell wall, cell membrane, nucleus, cytoplasm, chl Compare and contrast plant and animal cells Conduct investigations to separate plant pigments from the cell Identify the role of chlorophyll in the process of photosynthesis Explain and illustrate photosynthesis Explain cellular respiration Examine cells on a microscopic level LS.4.5.1 LS.4.5.10 LS.4.5.11 LS.4.5.12 LS.4.5.13 LS.4.5.14 LS.4.5.15 LS.4.5.16 LS.4.5.17 LS.4.5.18 LS.4.5.2 LS.4.5.3 LS.4.5.4 Distinguish among and model: organisms, populations, communities, ecosystems, biosphere Analyze the concept of conservation of mass as related to the amount of matter in an ecosystem Create ecosystems in which plants can exist without animals Conduct investigations in which plants are encouraged to thrive Construct, compare, and contrast environments in open and closed aquaria Categorize organisms by the function they serve in the ecosystems and food web: predator/prey, parasitism, Conduct field studies identifying and categorizing organisms in a given area of an ecosystem Evaluate positive and negative human effects on ecosystems Describe and illustrate various symbiotic relationships: parasitism, mutualism, commensalism Investigate careers, scientists, and historical breakthroughs related to populations and ecosystems Identify the transfer of energy using energy pyramids: terrestial and aquatic Design food webs in specific habitats to show the flow of energy with communities: terrestial and aquatic Evaluate food webs under conditions of stress: overgrazing, overpopulation, natural disaster, introduction of Tuesday, November 13, 2007 Page 165 of 253

LS.4.5.5 LS.4.5.6 LS.4.5.7 LS.4.5.8 LS.4.5.9 Examine the role of limiting factors on the carrying capacity of an ecosystem: food, space, water, shelter Describe and diagram the nitrogen cycle in ecosystems Describe and diagram the carbon cycle in ecosystems Describe and diagram the carbon dioxide-oxygen cycle in ecosystems Conduct investigations demonstrating the role of the carbon dioxide-oxygen cycle in ecosystems PS.5.5.1 PS.5.5.10 PS.5.5.2 PS.5.5.3 PS.5.5.4 PS.5.5.5 PS.5.5.6 PS.5.5.7 PS.5.5.8 PS.5.5.9 Identify the relationship of atoms to all matter Investigate careers, scentists, and historical breakthroughs related to physical properties, physical changes, Conduct scientific investigations on physical properties of objects Identify common examples of physical properties: length, mass, area, perimeter, texture, taste, odor, color, e State characterisitics of physical changes Identify characterisitics and common examples of physical changes Explain how heat influences the state of matter of a substance: solid, liquid, gas, plasma Demonstrate the effect of changes in the physical properties of matter Model the motion and position of molecules in solids, liquids, and gases in terms of kinetic energy Conduct investigations demonstrating expansion and contraction PS.6.5.1 PS.6.5.2 PS.6.5.3 Classify simple machines Conduct investigations using: levers (e.g., toothbrush); pulleys; inclined planes-ramps, wedges,and screws; Relate simple machines to inventions and discoveries Tuesday, November 13, 2007 Page 166 of 253

PS.6.5.4 PS.6.5.5 PS.6.5.6 PS.6.5.7 Compare and contrast potential energy and kineetic energy as applied to motion Classify real world examples as potential energy or kinetic energy as applied to motion Conduct investigations using potential energy and kinetic energy Investigate careers, scientists, and historical breakthroughs related to simple machines and potential and kin PS.7.5.1 PS.7.5.2 PS.7.5.3 PS.7.5.4 PS.7.5.5 PS.7.5.6 Summarize how light can interact with matter through absorption, refraction, and reflection Investigate how light travels and interacts with an object or material Conduct investigations demonstrating how an object can be seen Design and conduct investigations of transparent, translucent, and opaque as applied to light Investigate physical interactions of light and matter and the effect on color perception: refraction, absorption, Investigate careers, scientists, and historical breakthroughs related to light energy ESS.8.5.1 ESS.8.5.10 ESS.8.5.11 ESS.8.5.12 ESS.8.5.12 ESS.8.5.2 ESS.8.5.3 ESS.8.5.4 Identify some basic elements composing minerals: silicon, oxygen, iron, sodium, chlorine, calcium, carbon, h Investigate careers, scientists, and historical breakthroughs related to minerals and rocks Investigate the formation of soil Describe and illustrate the rock cycle Conduct investigations on sedimentation Investigate the growth of crystals Identify characteristics of minerals Conduct investigations on mineral properties: luster, hardnes, streak, acid test for calsite, fluorescence Tuesday, November 13, 2007 Page 167 of 253

ESS.8.5.5 ESS.8.5.6 ESS.8.5.7 ESS.8.5.8 ESS.8.5.9 Identify the following minerals: halite (salt), feldspat, sulfur, quartz, diamonds, gypsum, calcite, talc, hermatit Identify minerals found in Arkansas: bauxite, diamonds, quartz, gelena Identify characteristics of sedimentary, igneous, and metamorphic rocks Compare and contrast by investigation characteristics of the three basic types of rocks: sedimentary, igneou Classify the three basic types of rocks ESS.9.5.1 ESS.9.5.2 ESS.9.5.3 Explain and give examples of how physical evidence from fossils supports the theory that Earth has changed Analyze fossil record evidence about plants and animals that lived long ago Infer the nature of ancient environments based on fossil record evidence ESS.10.5.1 ESS.10.5.2 ESS.10.5.3 ESS.10.5.4 ESS.10.5.5 ESS.10.5.6 Compare the physical characteristics of the sun to other stars: size, color, brightness Demonstrate the order of planets and other space objects in our solar system Compare the properties of planets in our solar system: size, shape, density, stmosphere, distance from the s Distinguish between mass and weight Compare the human body's mass to weight on Earth, the moon, and other planets in our solar system Investigate careers, scientists, and historical breakthroughs related to planets Tuesday, November 13, 2007 Page 168 of 253

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