Sci Maps

1. Unit 1

1.1. Module 1

1.1.1. Lesson 1

1.1.1.1. Matter

1.1.1.1.1. Anything made out of atoms with a negative charged orbit and a positive charged nucleus.

1.1.1.2. Solid State

1.1.1.2.1. Matter with a definite shape and volume, they are hard to compress. The particles are very slow

1.1.1.3. Liquid State

1.1.1.3.1. Matter with a definite volume, but not a definite shape, it moves fairly fast.

1.1.1.4. Gas State

1.1.1.4.1. Matter without a definite shape or volume, it moves very fast.

1.1.1.5. Kinetic Energy

1.1.1.5.1. Energy that a object has due to its motion. The faster the speed, the more kinetic energy it has.

1.1.1.6. Temperature

1.1.1.6.1. The average amount of kinetic energy that the particles have.

1.1.1.7. Thermometer

1.1.1.7.1. A tool used to measure the temperature

1.1.1.8. Kelvin Scale

1.1.1.8.1. A scale of temparture that is identical to celsius subtracted by 273.15

1.1.1.9. Potential Energy

1.1.1.9.1. The stored energy a object has due to how it interacts.

1.1.1.10. Thermal Energy

1.1.1.10.1. The motion of all the particles, and the distance and attractions between those particles. It also depends on the state of the substance including both kinetic and potential energies of the substance.

1.1.1.11. Atoms

1.1.1.11.1. All matter is made of atoms. Atoms are the building block of matter.

1.1.1.12. Substances

1.1.1.12.1. Stuff made from atoms.

1.1.1.13. Elements

1.1.1.13.1. Substances that have only one kind of atom.

1.1.1.14. Compound

1.1.1.14.1. Compounds are more than one kind of atom bonded together.

1.1.1.15. Molecule

1.1.1.15.1. A compund with a specific elemental ratio.

1.1.1.16. Periodic Table of Elements

1.1.1.16.1. A table full of elements.

1.1.1.17. Element Symbols

1.1.1.17.1. A symbol used to represent the elements.

1.1.1.18. Chemical Formula

1.1.1.18.1. A formula for molecules.

1.1.2. Lesson 2

1.1.2.1. Jacques Charles

1.1.2.2. Volume Temperature Law

1.1.2.3. Thermal Contraction

1.1.2.4. Thermal Expansion

1.1.2.5. Heating

1.1.2.6. Systems

1.1.2.7. Pressure

1.1.2.8. Phase Change

1.1.2.9. Melting

1.1.2.10. Vaporization

1.1.2.11. Evaporation

1.1.2.12. Freezing

1.1.2.13. Condensation

1.1.3. Lesson 3

1.1.3.1. Robert Boyle

1.1.3.2. Boyle's law

1.1.3.3. Pressure and number of particles

1.1.3.4. Types of relationships

1.1.3.5. Pressure and state of matter

1.1.4. Lesson 4

1.1.4.1. Molecules

1.1.4.2. Nonmetal Gases

1.1.4.3. Nonmetal Solids

1.1.4.4. Metals

1.1.4.5. Ionic Compounds

1.1.4.6. Covalent Compounds

1.1.4.7. Polar Covalent Compounds

1.1.4.8. Nonpolar Covalent Compounds

1.1.4.9. Dissolving

1.2. Module 2

1.2.1. Lesson 3

1.2.1.1. Chemical Potential Energy

1.2.1.2. Endothermic Reaction

1.2.1.3. Exothermic Reaction

1.2.1.4. Concentration in reactions

1.2.1.5. Law of conservation of energy

1.2.2. Lesson 2

1.2.2.1. Chemical Change

1.2.2.2. Chemical Reaction

1.2.2.3. Chemical Equations

1.2.2.4. Products

1.2.2.5. Reactants

1.2.2.6. Coefficent

1.2.2.7. Antoine Lavoisier

1.2.2.8. Law of conservation of mass

1.2.2.9. Atomic Mass

1.2.3. Lesson 1

1.2.3.1. Qualitative Characteristics

1.2.3.2. Quantitative Characteristics

1.2.3.3. Mass

1.2.3.4. Weight

1.2.3.5. Volume

1.2.3.6. Density

1.2.3.7. Chemical Properties

1.2.3.8. Flamibility

1.2.3.9. Oxidation

1.2.3.10. Reactivity

1.2.3.11. Conductivity

1.2.3.12. Solubility

2. Unit 2

2.1. Module 1

2.1.1. Lesson 1

2.1.1.1. Pangaea

2.1.1.2. Continental Drift

2.1.1.3. Rock formation evidence

2.1.1.4. Glacial features evidence

2.1.1.5. Coal Deposite Evidence

2.1.1.6. Fossil Evidence

2.1.1.7. Alfred Weneger

2.1.2. Lesson 2

2.1.2.1. Ocean Floor Topography

2.1.2.2. Mid Ocean Ridges

2.1.2.3. Ocean Trenches

2.1.2.4. Isochron Maps

2.1.2.5. Seafloor Spreading

2.1.2.6. Magma

2.1.2.7. Lava

2.1.2.8. Plate Tectonics

2.1.3. Lesson 3

2.1.3.1. Convergent Boundry

2.1.3.2. Divergent Boundry

2.1.3.3. Transform Boundry

2.1.3.4. Subduction

2.1.3.5. Fault

2.1.3.6. Fault Block Mountains

2.1.3.7. Volcano

2.1.3.8. Volcano Arc

2.1.3.9. Earthquake

2.1.3.10. Fault Zone

2.1.3.11. Landslide

2.1.3.12. Tsunami

2.1.3.13. Impact Crater

2.1.4. Lesson 4

2.1.4.1. Physical Weathering

2.1.4.2. Frost Wedging

2.1.4.3. Plant Action

2.1.4.4. Abrasion

2.1.4.5. Wind Abrasion

2.1.4.6. Water Abrasion

2.1.4.7. Glacial Abrasion

2.1.4.8. Chemical Weathering

2.1.4.9. Oxidation

2.1.4.10. Hydrolysis

2.1.4.11. Carbonation

2.1.4.12. Erosion

2.1.4.13. Deposition

2.1.4.14. Small Scale Erosion

2.1.4.15. Surface runoff

2.1.4.16. Coastal Erosion

2.1.4.17. Large Scale Erosion

2.1.4.18. Mass Wasting

2.1.4.19. Glacial Movement

2.1.5. Lesson 5

2.1.5.1. Rock

2.1.5.2. Mineral

2.1.5.3. Crystallization

2.1.5.4. Igneous extrusive rock

2.1.5.5. Igneous intrusive rock

2.1.5.6. Sedimentary rock

2.1.5.7. Lithification

2.1.5.8. Compaction

2.1.5.9. Cementation

2.1.5.10. Metamorphic rock

2.2. Module 2

2.2.1. Lesson 1

2.2.1.1. Earthquakes and plate boundaries

2.2.1.2. Richter Magnitude scale

2.2.1.3. Moment magnitude scale

2.2.1.4. Modified Mercalli intensity scale

2.2.1.5. Pancaking

2.2.1.6. Liquefaction

2.2.1.7. Landslide

2.2.1.8. Tsunami

2.2.2. Lesson 2

2.2.2.1. Volcano Belts

2.2.2.2. Hot Spots

2.2.2.3. Mudflows

2.2.2.4. Lava flows

2.2.2.5. Volcanic Ash

2.2.2.6. Volcanic Gases

2.2.2.7. Pyroclastic Flows

2.2.2.8. Predicting volcanoes - Gas

2.2.2.9. Predicting volcanoes - Deformation

2.2.2.10. Predicting volcanoes - Ground Vibration

2.2.2.11. Predicting volcanoes - Remote Sensing

2.2.2.12. Predicting volcanoes - Lava Collection

2.2.3. Lesson 3

2.2.3.1. Hurricane

2.2.3.2. Saffir-Simpson hurricane scale

2.2.3.3. Tornado

2.2.3.4. Enhanced Fujita Damage Intensity scale

2.2.3.5. Flood

2.2.3.6. Drought

2.2.3.7. Drought hazard - soil erosion

2.2.3.8. Drought hazard - wildfires

2.2.3.9. Drought hazard - decrease in water supply

2.2.3.10. Drought hazard - agricultural impact

2.2.3.11. Meteorologists

3. Unit 3

3.1. Module 1

3.1.1. Lesson 1

3.1.1.1. Natural resource

3.1.1.2. Ores

3.1.1.3. Renewable Resources

3.1.1.4. Nonrenewable resources

3.1.2. Lesson 2

3.1.2.1. Hydrothermal deposits

3.1.2.2. Subduction Zones

3.1.2.3. Distribution of minerals

3.1.2.4. Soil

3.1.2.5. 5 Factors of soil formation

3.1.2.6. Formation of Coal

3.1.2.7. Formation of Oil and Natural Gas

3.1.2.8. Porosity

3.1.2.9. Permeability

3.1.2.10. Groundwater

3.1.2.11. Groundwater distribution

3.1.3. Lesson 3

3.1.3.1. Mining

3.1.3.2. Dwindling Deposits

3.1.3.3. Mineral Supplies

3.1.3.4. Fossil fuel extraction

3.1.3.5. Groundwater overdraft

3.2. Module 2

3.2.1. Lesson 1

3.2.1.1. Material

3.2.1.2. Natural Material

3.2.1.3. Synthetic Material

3.2.1.4. Reactants to Products

3.2.2. Lesson 2

3.2.2.1. Natural Resource Availability

3.2.2.2. Synthetic Material Production

3.2.2.3. Individual and Societal impacts

3.2.2.4. By-products

4. Unit 4

4.1. Module 1

4.1.1. Lesson 1

4.1.1.1. Photosynthesis(Group)

4.1.1.1.1. Photosynthesis

4.1.1.1.2. Epidermal leaf cells

4.1.1.1.3. Cuticle

4.1.1.1.4. Stomata

4.1.1.1.5. Mesophyll Cells

4.1.1.1.6. Chloroplasts

4.1.1.1.7. Chlorophyll A and B

4.1.1.1.8. Light Cycle

4.1.1.1.9. Night Cycle

4.1.1.1.10. Different sugars

4.1.1.2. Cellular Respiration(Group)

4.1.1.2.1. Cellular Respiration

4.1.1.2.2. Glycolysis

4.1.1.2.3. Mitochondria

4.1.1.2.4. Fermentation

4.1.2. Lesson 2

4.1.2.1. Producers

4.1.2.1.1. A producer is an organism that introduces energy into the ecosystem. These are normally plants.

4.1.2.2. Consumers

4.1.2.2.1. A consumer is an organism that takes energy from other organisms.

4.1.2.3. Primary Consumer

4.1.2.3.1. A primary consumer is an organism that takes energy straight from the producers.

4.1.2.4. Secondary Consumer

4.1.2.4.1. A secondary consumer is an organism that takes energy from a primary consumer

4.1.2.5. Tertiary Consumer

4.1.2.5.1. A tertiary consumer is a consumer that takes energy from a secondary consumer. These are normally apex predators.

4.1.2.6. Detritivores

4.1.2.6.1. A detritivore is an organism that recycles matter from dead consumers and producers to new animals.

4.1.2.7. Food Chain

4.1.2.7.1. A food chain is a chart that shows the direction of energy in one dimension.

4.1.2.8. Food Web

4.1.2.8.1. A food web is a chart that uses a tangle of many food chains to make a 2-d graph.

4.1.2.9. Energy Pyramid / 10 % rule

4.1.2.9.1. An energy pyramid is a modified food chain that shows the energy of something at the chart. Each level up has 10% of the energy from what is below it.

4.1.3. Lesson 3

4.1.3.1. Carbon Cycle

4.1.3.1.1. Photosynthesis

4.1.3.1.2. Cellular Respiration

4.1.3.1.3. Sedimentation

4.1.3.1.4. Decomposition

4.1.3.1.5. Fossil Fuels

4.1.3.1.6. Combustion

4.1.3.2. Water Cycle

4.1.3.2.1. Evaporation / Transpiration

4.1.3.2.2. Condensation

4.1.3.2.3. Precipitation

4.1.3.2.4. Run Off

4.1.3.2.5. Seepage

4.1.3.3. Oxygen Cycle

4.1.3.3.1. Cellular Respiration

4.1.3.3.2. Photosynthesis

4.1.3.4. Nitrogen Cycle

4.1.3.4.1. Precipitation

4.1.3.4.2. Nitrogen Fixation

4.1.3.4.3. Ammonification

4.1.3.4.4. Nitrification

4.1.3.4.5. Denitrification

4.1.3.4.6. Assimilation

4.2. Module 2

4.2.1. Lesson 1

4.2.1.1. Biosphere

4.2.1.1.1. All life on earth

4.2.1.2. Biome

4.2.1.2.1. A biome is a group of ecosystems that share a similar climate.

4.2.1.3. Ecosystems

4.2.1.3.1. An ecosystem is a location where life thrives.

4.2.1.4. Communities

4.2.1.4.1. A community is all the biotic parts of an ecosystem.

4.2.1.5. Populations

4.2.1.5.1. A population is a part of a community that is of the same species.

4.2.1.6. Organism

4.2.1.6.1. An individual living being.

4.2.1.7. Abiotic

4.2.1.7.1. Somthing that is not living, like a rock.

4.2.1.8. Biotic

4.2.1.8.1. Something that is living, such as an animal.

4.2.1.9. Limiting Factor

4.2.1.9.1. A limiting factor is a factor that keeps a population under control. This can be water, food, or shelter.

4.2.1.10. Biotic Potential

4.2.1.10.1. The biotic potential is potential to grow without the worry of meeting a limiting factor.

4.2.1.11. Carrying Capacity

4.2.1.11.1. The carrying capacity of a place is the amount of life it can sustain before it starts to become damaged.

4.2.1.12. Overpopulation

4.2.1.12.1. Overpoopulation is when a excessive amount of life is created into an ecosystem. This would damage the ecosystem and its inhabitants.

4.2.1.13. Extinction

4.2.1.13.1. Extinction is when a species dies out. The last living member died, and the genetic code is lost to history.

4.2.1.14. Endangered Species

4.2.1.14.1. An endangered species is when a species is nearing extinction.

4.2.1.15. Threatened species

4.2.1.15.1. An threantened species is when a sppeicies in nearing endangerment.

4.2.2. Lesson 2

4.2.2.1. Symbiosis

4.2.2.1.1. Symbiosis relationships are long lasting relationships between 2 animals.

4.2.2.2. Commensalism

4.2.2.2.1. A symbiotic relationship where 1 organism gains something, and the other doesn't.

4.2.2.3. Parasitism

4.2.2.3.1. A symbiotic relationship where 1 organism gains something, and the other is harmed.

4.2.2.4. Mutualism

4.2.2.4.1. A symbiotic relationship where both organisms gains something.

4.2.2.5. Cooperative Relationships

4.2.2.5.1. A cooporative relationship is a relationship of organisms of the same species work together.

4.2.2.6. Competitive Relationship

4.2.2.6.1. A competitive relationship is a relations of organisms that compete with eachother for resources.

4.2.2.7. Predator-prey relationship

4.2.2.7.1. A Predator-prey relationship is a relationship in which one species hunts and eats the other.

4.2.3. Lesson 3

4.2.3.1. Ecological succession

4.2.3.1.1. The process where one ecological community turns into another.

4.2.3.2. Climax Community

4.2.3.2.1. A stable ecosystem, that no longer goes though changes.

4.2.3.3. Primary succession

4.2.3.3.1. The creation of an ecosystem in new land.

4.2.3.4. Secondary succession

4.2.3.4.1. The creation of an ecosystem, in land that used to be an ecosystem but got heaviliy damaged, or destroyed.

4.2.3.5. Eutrophication

4.2.3.5.1. Algae in the water overgrows due to fertilizer run off.

4.2.3.6. Dynamic Equilibrium

4.2.3.6.1. The balance of the different parts of an ecosystem.

4.2.3.7. Resource Extraction

4.2.3.7.1. Us humans extracting resources like oil and damaging the ecosystem.

4.2.3.8. Pollution

4.2.3.8.1. Us humans adding contaminants into an ecosystem and damaging it.

4.2.3.9. Nonnative species

4.2.3.9.1. When us humans bring a species from one place to another. The new place is un prepared for an invasion of this new species.

4.3. Module 3

4.3.1. Lesson 1

4.3.2. Lesson 2