Seventh Grade science (1)

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Seventh Grade science (1) by Mind Map: Seventh Grade science (1)

1. UNIT 4 MOD 2

1.1. Unit 4 - Module 2 - Lesson 1

1.2. Biosphere

1.3. Biome

1.4. Ecosystems

1.5. Communities

1.6. Populations

1.7. Organism

1.8. Abiotic

1.9. Biotic

1.10. Limiting Factor

1.11. Biotic Potential

1.12. Carrying Capacity

1.13. Overpopulation

1.14. Extinction

1.15. Endangered Species

1.16. Threatened species

1.17. Unit 4 - Module 2 - Lesson 2

1.18. Symbiosis

1.19. Commensalism

1.20. Parasitism

1.21. Mutualism

1.22. Cooperative Relationships

1.23. competitive Relationship

1.24. Predator-prey relationship

1.25. Unit 4 - Module 2 - Lesson 3

1.26. Ecological succession

1.27. Climax Community

1.28. Primary succession

1.29. Secondary succession

1.30. Eutrophication

1.31. Dynamic Equilibrium

1.32. Resource Extraction

1.33. Pollution

1.34. Nonnative species

2. Module 1 UNIT 1

2.1. LESSON 4

2.1.1. Molecules

2.1.2. Nonmetal Gases

2.1.3. Nonmetal Solids

2.1.4. Metals

2.1.5. Ionic Compounds

2.1.6. Covalent Compounds

2.1.7. Polar Covalent Compounds

2.1.8. Nonpolar Covalent Compounds

2.1.9. Dissolving

2.2. Lesson 1

2.2.1. Chemical formula

2.2.2. Element symbols

2.2.3. Periodic table of elements

2.2.4. Molecule

2.2.5. Compound

2.2.6. Elements

2.2.7. Substances

2.2.8. Atoms

2.2.9. Solid State

2.2.10. Liquid state

2.2.11. Thermal energy

2.2.12. Potential energy

2.2.13. Kelvin scale

2.2.14. Thermometer

2.2.15. Temperature

2.2.16. Kinetic energy

2.2.17. Matter

2.2.18. Gas state

2.3. LESSON 3

2.3.1. Robert Boyle

2.3.2. Boyles Law - Number of particles

2.3.3. Boyles Law - Pressure and Volume

2.3.4. Boyles Law - Pressure and States of matter

2.4. Lesson 2

2.4.1. Jacques Charles

2.4.2. heating

2.4.3. thermal expansion

2.4.4. condensation

2.4.5. freezing

2.4.6. pressure

2.4.7. melting

2.4.8. systems

2.4.9. boiling vs evaporation

2.4.10. Vaporization

2.4.11. phase change

2.4.12. thermal contraction

2.4.13. Volume temperature law

3. MODLUE 2 UNIT 1

3.1. LESSON 2

3.1.1. Chemical Changes

3.1.2. Chemical Reactions

3.1.3. Chemical Equations

3.1.4. Products

3.1.5. Reactants

3.1.6. Coefficients

3.1.7. Antoine Lavoisier

3.1.8. Law of conservation of mass

3.1.9. Atomic Mass

3.2. LESSON 3

3.2.1. Chemical Potential Energy

3.2.2. Endothermic Reaction

3.2.3. Exothermic Reaction

3.2.4. Concentration in reactions

3.2.5. Law of conservation of energy

3.3. LESSON 1

3.3.1. Qualitative Characteristics

3.3.2. Quantitative Characteristics

3.3.3. Mass

3.3.4. Weight

3.3.5. Volume

3.3.6. Density

3.3.7. Chemical Properties

3.3.8. Flammability

3.3.8.1. flammability

3.3.9. Oxidation

3.3.10. Reactivity

3.3.10.1. reactivity

3.3.11. Solubility

4. UNIT 2 MODULE 1

4.1. Lesson 1

4.1.1. Pangea

4.1.2. Continental Drift

4.1.3. Rock formation evidence

4.1.4. Glacial features evidence

4.1.5. Coal Deposit evidence

4.1.6. Fossil Evidence

4.1.7. Alfred Wegener

4.2. Lesson 3

4.2.1. Convergent Boundary

4.2.2. Divergent Boundary

4.2.3. Transform Boundary

4.2.4. Subduction

4.2.5. Fault

4.2.6. Fault Block Mountains

4.2.7. Volcano

4.2.8. Volcanic Arc

4.2.9. Earthquake

4.2.10. Fault Zone

4.2.11. Landslide

4.2.12. Tsunami

4.2.13. Impact Crater

4.3. LESSON 5

4.3.1. Rock

4.3.2. Mineral

4.3.3. Crystallization

4.3.4. Igneous extrusive rock

4.3.5. Igneous intrusive rock

4.3.6. Sedimentary rock

4.3.7. Lithification

4.3.8. Compaction

4.3.9. Cementation

4.3.10. Metamorphic rock

4.4. LESSON 4

4.4.1. Physical Weathering

4.4.2. Frost Wedging

4.4.3. Plant Action

4.4.4. Abrasion

4.4.5. Wind Abrasion

4.4.6. Water Abrasion

4.4.7. Glacial Abrasion

4.4.8. Chemical Weathering

4.4.9. Oxidation

4.4.10. Hydrolysis

4.4.11. Carbonation

4.4.12. Erosion

4.4.13. Deposition

4.4.14. Small Scale Erosion

4.4.15. Surface runoff

4.4.16. Coastal Erosion

4.4.17. Large Scale Erosion

4.4.18. Mass Wasting

4.4.19. Glacial Movement

4.5. Lesson 2

4.5.1. Ocean Floor topography

4.5.2. Mid ocean ridges

4.5.3. Ocean trenches

4.5.4. Isochron Maps

4.5.5. Seafloor spreading

4.5.6. Magma

4.5.7. Lava

4.5.8. Plate Tectonics

5. UNIT 2 MOD 2

5.1. LESSON 1

5.1.1. Earthquakes and plate boundaries

5.1.2. Richter Magnitude scale

5.1.3. Earthquake magnitude scale

5.1.4. Moment magnitude scale

5.1.5. Modified Mercalli intensity scale

5.1.6. Pancaking

5.1.7. Liquefaction

5.1.8. Landslide

5.1.9. Tsunami

5.2. LESSON 2

5.2.1. Volcano Belts

5.2.2. Hot Spots

5.2.3. Mudflows

5.2.4. Lava flows

5.2.5. Volcanic Ash

5.2.6. Volcanic Gases

5.2.7. Pyroclastic Flows

5.2.8. Predicting volcanoes - Gas

5.2.9. Predicting volcanoes - Deformation

5.2.10. Predicting volcanoes - Ground Vibration

5.2.11. Predicting volcanoes - Remote Sensing

5.2.12. Predicting volcanoes - Lava Collection

5.3. LESSON 3

5.3.1. Hurricane

5.3.2. Saffir-Simpson hurricane scale

5.3.3. Tornado

5.3.4. Enhanced Fujita Damage Intensity scale

5.3.5. Flood

5.3.6. Drought

5.3.7. Drought hazard - soil erosion

5.3.8. Drought hazard - wildfires

5.3.9. Drought hazard - decrease in water supply

5.3.10. Drought hazard - agricultural impact

5.3.11. Meteorologists

5.4. UNIT 3 MOD1

5.4.1. lesson 1

5.4.1.1. natural resource

5.4.1.2. ores

5.4.1.3. renewable resource

5.4.1.4. nonrenewable resource

5.4.2. lesson 2

5.4.2.1. Hydrothermal deposits

5.4.2.2. Subduction Zones

5.4.2.3. Distribution of minerals

5.4.2.4. Soil

5.4.2.5. 5 Factors of soil formation

5.4.2.6. Formation of Coal

5.4.2.7. Formation of Oil and Natural Gas

5.4.2.8. Porosity

5.4.2.9. Permeability

5.4.2.10. Groundwater

5.4.2.11. Groundwater distribution

5.4.3. Lesson 3

5.4.3.1. Mining

5.4.3.2. Dwindling Deposits

5.4.3.3. Mineral Supplies

5.4.3.4. Fossil fuel extraction

5.4.3.5. Groundwater overdraft

5.5. Unit 3 mod 2

5.5.1. lesson 1

5.5.1.1. Material

5.5.1.2. Natural Material

5.5.1.3. Synthetic Material

5.5.1.4. Reactants to Products

5.5.2. lesson 2

5.5.2.1. Natural Resource Availability

5.5.2.2. Synthetic Material Production

5.5.2.3. Individual and Societal impacts

5.5.2.4. By-products

6. unit 4 mod 1

6.1. lesson1

6.1.1. Photosynthesis

6.1.2. Epidermal leaf cells

6.1.3. Cuticle

6.1.4. Stomata

6.1.5. Mesophyll Cells

6.1.6. Chloroplasts

6.1.7. Chlorophyll A and B

6.1.8. Light Cycle

6.1.9. Night Cycle

6.1.10. Different sugars

6.1.11. Cellular Respiration

6.1.12. Glycolysis

6.1.13. Mitochondria

6.1.14. Lactic Acid Fermentation

6.1.15. Ethanol Alcohol Fermentation

6.2. Lesson 2

6.2.1. Producers

6.2.2. Consumers

6.2.3. Primary Consumer

6.2.4. Secondary Consumer

6.2.5. Tertiary Consumer

6.2.6. Detritivores

6.2.7. Food Chain

6.2.8. Food Web

6.2.9. Energy Pyramid / 10 % rule

6.3. Lesson 3

6.3.1. Carbon Cycle

6.3.2. - Cellular Respiration

6.3.3. - Photosynthesis

6.3.4. - Sedimentation

6.3.5. - Decomposition

6.3.6. - Fossil Fuels

6.3.7. - Combustion

6.3.8. Water Cycle

6.3.9. - Evaporation / Transpiration

6.3.10. - Condensation

6.3.11. - Precipitation

6.3.12. - Run Off

6.3.13. - Seepage

6.3.14. Oxygen Cycle

6.3.15. - Cellular Respiration

6.3.16. - Photosynthesis

6.3.17. Nitrogen Cycle

6.3.18. - Precipitation

6.3.19. - Nitrogen Fixation

6.3.20. - Ammonification

6.3.21. - Nitrification

6.3.22. - Assimilation

6.3.23. - Denitrification