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Biology ATAR unit 1 and 2 - Statistics
General Stats
- This quiz has been taken 11 times
- The average score is 6 of 309
Answer Stats
| Answer | % Correct |
|---|---|
| DNA | 50%
|
| Genus | 40%
|
| oxygen | 40%
|
| pH | 40%
|
| Genes | 30%
|
| biodiversity | 20%
|
| glucose | 20%
|
| nitrogen | 20%
|
| Water | 20%
|
| abiotic | 10%
|
| amino acids | 10%
|
| ATP | 10%
|
| biosphere | 10%
|
| biotic | 10%
|
| carbohydrates | 10%
|
| cholesterol | 10%
|
| Class | 10%
|
| CO2 | 10%
|
| CO2 diffuses into water | 10%
|
| ecosystem | 10%
|
| energy | 10%
|
| environment | 10%
|
| Family | 10%
|
| fire | 10%
|
| food chain | 10%
|
| food web | 10%
|
| H2O | 10%
|
| Kingdom | 10%
|
| lipids | 10%
|
| Order | 10%
|
| organelles | 10%
|
| organism | 10%
|
| photosynthesis | 10%
|
| Phylum | 10%
|
| reproduction | 10%
|
| Reproduction | 10%
|
| Species | 10%
|
| sun | 10%
|
| temperature | 10%
|
| 10% rule | 0%
|
| 1500 endemic vascular plants | 0%
|
| 70% native vegetation loss | 0%
|
| active site | 0%
|
| Active transport | 0%
|
| active transport | 0%
|
| agricultural machinery | 0%
|
| agriculture | 0%
|
| always has pyramid shape | 0%
|
| ammonification | 0%
|
| amount of biomass produced | 0%
|
| anabolic | 0%
|
| angiosperms | 0%
|
| animal cell | 0%
|
| animalia | 0%
|
| apex predator | 0%
|
| aquaporin | 0%
|
| archaea | 0%
|
| archea | 0%
|
| asexual reproduction | 0%
|
| assimilation | 0%
|
| atmosphere | 0%
|
| atmospheric nitrogen converted into useable form | 0%
|
| autotrophic | 0%
|
| autotrophs | 0%
|
| bacteria | 0%
|
| bilateral symmetry | 0%
|
| Binomial nomenclature | 0%
|
| biodiversity hotspot | 0%
|
| biomagnification | 0%
|
| biomass | 0%
|
| biomes | 0%
|
| body systems | 0%
|
| bryophytes | 0%
|
| can be inverted | 0%
|
| capture-recapture | 0%
|
| carbon cycle | 0%
|
| carbon exits as CO2 gas | 0%
|
| carbon sinks | 0%
|
| catabolic | 0%
|
| catalysts | 0%
|
| Cell requirements | 0%
|
| cellular respiration | 0%
|
| cellulose | 0%
|
| cell wall | 0%
|
| Chloroplast | 0%
|
| circulatory | 0%
|
| classification | 0%
|
| climax community | 0%
|
| CO2 used in photosynthesis | 0%
|
| collaboration | 0%
|
| combustion | 0%
|
| commensalism | 0%
|
| community | 0%
|
| competition | 0%
|
| competitive inhibitors | 0%
|
| Concentration gradient | 0%
|
| conservation efforts | 0%
|
| converts ammonia into nitrites and nitrates | 0%
|
| creates carbonic acid | 0%
|
| cytosol | 0%
|
| deeper soils form | 0%
|
| deforestation | 0%
|
| denature | 0%
|
| denitrification | 0%
|
| density-dependent factors | 0%
|
| density-independent factors | 0%
|
| desert | 0%
|
| different species do not feed on same resource at same time | 0%
|
| digestive | 0%
|
| disease | 0%
|
| displays rate of energy transfer between trophic levels | 0%
|
| distilled water | 0%
|
| DKPCOFGS | 0%
|
| Domain | 0%
|
| dryland salinity | 0%
|
| ecological niche | 0%
|
| ecological pyramid | 0%
|
| ecological succession | 0%
|
| ecology | 0%
|
| ecosystem diversity | 0%
|
| ectotherm | 0%
|
| endangered species | 0%
|
| endemic species | 0%
|
| Endocytosis | 0%
|
| endoskeleton | 0%
|
| endotherm | 0%
|
| environmental conservation | 0%
|
| Enzymes | 0%
|
| establishment of k-selected plants | 0%
|
| eukarya | 0%
|
| eutrophication | 0%
|
| Exchange Gases | 0%
|
| excretory | 0%
|
| exocytosis | 0%
|
| exoskeleton | 0%
|
| exponential growth phase | 0%
|
| extra-cellular region | 0%
|
| fertilisation | 0%
|
| fertiliser use | 0%
|
| few offspring | 0%
|
| first order consumer | 0%
|
| fluid | 0%
|
| fluid mosaic model | 0%
|
| forest | 0%
|
| fossil fuels | 0%
|
| fox | 0%
|
| fundamental niche | 0%
|
| fungi | 0%
|
| genetic conservation | 0%
|
| genetic diversity | 0%
|
| Genus, species | 0%
|
| gestation period | 0%
|
| gills | 0%
|
| glycoproteins | 0%
|
| grasslands | 0%
|
| greater genetic diversity | 0%
|
| greenhouse effect | 0%
|
| greenhouse gases | 0%
|
| gross primary productivity | 0%
|
| Growth | 0%
|
| gymnosperms | 0%
|
| habitat destruction | 0%
|
| habitat fragmentation | 0%
|
| heterotrophic | 0%
|
| heterotrophs | 0%
|
| hierarchy | 0%
|
| high birth rate | 0%
|
| high concentration | 0%
|
| high effect | 0%
|
| human activities | 0%
|
| Human factors | 0%
|
| human impacts | 0%
|
| hydrophilic | 0%
|
| hydrophobic | 0%
|
| hydrosphere | 0%
|
| hypertonic solution | 0%
|
| hypotonic sollution | 0%
|
| induced fit | 0%
|
| introduced species | 0%
|
| invasive species | 0%
|
| inverted | 0%
|
| isotonic solution | 0%
|
| keystone species | 0%
|
| k-selected species | 0%
|
| lag phase | 0%
|
| large size | 0%
|
| line transects | 0%
|
| lithosphere | 0%
|
| live birth | 0%
|
| living | 0%
|
| lock and key | 0%
|
| long lifespan | 0%
|
| low abundance | 0%
|
| low concentration | 0%
|
| management conservation | 0%
|
| methane | 0%
|
| mining | 0%
|
| molecules | 0%
|
| monomers | 0%
|
| morphology | 0%
|
| Movement | 0%
|
| multicellular | 0%
|
| mutualism | 0%
|
| natural or human disturbance | 0%
|
| net primary productivity | 0%
|
| new community forms | 0%
|
| NH3 | 0%
|
| nitrification | 0%
|
| nitrites and nitrates into nitrogen gas | 0%
|
| nitrogenase | 0%
|
| nitrogen cycle | 0%
|
| nitrogen fixation | 0%
|
| non-living | 0%
|
| non-vascular | 0%
|
| normal saline/ 0.9% NaCl | 0%
|
| npp=gpp-r | 0%
|
| nucleus | 0%
|
| nutrients | 0%
|
| Nutrients | 0%
|
| occurs in all spheres | 0%
|
| occurs through rhizobium | 0%
|
| offspring | 0%
|
| ophospholipids | 0%
|
| optimum | 0%
|
| osmosis | 0%
|
| parasitism | 0%
|
| passive movement | 0%
|
| passive transport | 0%
|
| phloem | 0%
|
| phospholipid bilayer | 0%
|
| physical environment | 0%
|
| pioneer plants colonise | 0%
|
| plantae | 0%
|
| plant cell | 0%
|
| plateau phase | 0%
|
| polymers | 0%
|
| population | 0%
|
| population dynamics | 0%
|
| Population growth | 0%
|
| prevent ecosystem collapse | 0%
|
| previously established ecosystem | 0%
|
| primary succession | 0%
|
| producers | 0%
|
| productivity | 0%
|
| products | 0%
|
| prokaryotes | 0%
|
| protein structures | 0%
|
| protista | 0%
|
| pteridophytes | 0%
|
| pump | 0%
|
| purple seastar | 0%
|
| pyramid of biomass | 0%
|
| pyramid of energy | 0%
|
| pyramid of numbers | 0%
|
| quadrats | 0%
|
| radial symmetry | 0%
|
| realised niche | 0%
|
| reefs | 0%
|
| relative number of organisms | 0%
|
| resource partitioning | 0%
|
| respiratory | 0%
|
| Response | 0%
|
| retain biodiversity | 0%
|
| r-selected species | 0%
|
| salt water | 0%
|
| scrublands | 0%
|
| secondary succession | 0%
|
| second order consumer | 0%
|
| seed banks | 0%
|
| semi-permeable membrane | 0%
|
| sexual reproduction | 0%
|
| short lifespan | 0%
|
| slow reproduction | 0%
|
| small size | 0%
|
| soil formation | 0%
|
| solute | 0%
|
| solution | 0%
|
| solvent | 0%
|
| species interaction | 0%
|
| species occupy due to restrictions | 0%
|
| species occupy without competition | 0%
|
| spores | 0%
|
| stored nitrogen converted into ammonia | 0%
|
| substrate | 0%
|
| substrate concentration | 0%
|
| substrates | 0%
|
| Surface area : volume ratio | 0%
|
| Taxonomy | 0%
|
| total amount of solar energy trapped | 0%
|
| total mass of dry organic matter | 0%
|
| transitional phase | 0%
|
| transportation network | 0%
|
| trophic level | 0%
|
| turns N2 into NH3 | 0%
|
| unicellular | 0%
|
| uptake of nitrites and nitrates in root systems | 0%
|
| used to prevent species extinction | 0%
|
| Vacuole | 0%
|
| vascular | 0%
|
| Waste | 0%
|
| woodlands | 0%
|
| xylem | 0%
|
| yellowstone wolves | 0%
|
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