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Unit 3 Concepts 3-5

Quiz by Catherine Tate

Grade 9-12
Science
Next Generation Science Standards

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45 questions
Show answers
  • Q1
    Which of the following is an example of a carnivore?
    Sheep
    Rabbit
    Cow
    Lion
    30s
  • Q2
    Which of the following is an example of a herbivore?
    Shark
    Snake
    Giraffe
    Eagle
    30s
  • Q3
    Which of the following is an example of a producer?
    Squirrel
    Grass
    Tiger
    Owl
    30s
  • Q4
    Which of the following is an example of a detritivore?
    Earthworm
    Butterfly
    Elephant
    Lion
    30s
  • Q5
    What is the main difference between how autotrophs and heterotrophs acquire energy?
    Heterotrophs can synthesize their own food through photosynthesis or chemosynthesis, while autotrophs rely on consuming other organisms for energy.
    Autotrophs can synthesize their own food through photosynthesis or chemosynthesis, while heterotrophs depend on consuming other organisms for energy.
    Autotrophs obtain energy through photosynthesis or chemosynthesis, while heterotrophs rely on external sources of energy.
    Both autotrophs and heterotrophs depend on consuming other organisms for energy.
    Autotrophs obtain energy by consuming other organisms, while heterotrophs synthesize their own food through photosynthesis or chemosynthesis.
    30s
  • Q6
    Which statement accurately describes the energy acquisition process of heterotrophs?
    Heterotrophs convert glucose into sunlight, water, and carbon dioxide through chemosynthesis.
    Heterotrophs can convert sunlight, water, and carbon dioxide into glucose through photosynthesis.
    Heterotrophs rely on consuming other organisms for energy.
    Heterotrophs rely on external sources of energy to produce glucose.
    30s
  • Q7
    Which statement accurately describes the energy acquisition process of autotrophs?
    Autotrophs obtain energy by consuming other organisms in their environment.
    Autotrophs convert glucose into sunlight, water, and carbon dioxide through chemosynthesis.
    Autotrophs can convert sunlight, water, and carbon dioxide into glucose through photosynthesis.
    Autotrophs can directly absorb organic molecules from their surroundings for energy.
    Autotrophs rely on external sources of energy to produce glucose.
    30s
  • Q8
    Which process is associated with the energy acquisition of autotrophs?
    Endocytosis
    Cellular respiration
    Fermentation
    Photosynthesis
    30s
  • Q9
    Aside from photosynthesis, what is another type of energy process that producers can use to make food?
    Cellular Respiration
    Chemosynthesis
    Glycolytic oxidation
    Endocytosis
    30s
  • Q10
    Which organism type can produce its own food?
    Predator
    Heterotroph
    Decomposer
    Parasite
    Autotroph
    30s
  • Q11
    What is the main source of energy for heterotrophs?
    Photosynthesis
    Cellular respiration
    Endocytosis
    Chemosynthesis
    Consuming other organisms
    30s
  • Q12
    What is the function of detritivores in a food chain/food web?
    They help regulate the populations of primary consumers
    They produce energy through photosynthesis
    They consume living organisms for food and energy
    They help break down dead organisms and waste, returning nutrients to the environment
    30s
  • Q13
    How do detritivores contribute to the energy flow in a food chain/food web?
    They consume primary consumers for energy
    They capture sunlight to produce food for themselves and other organisms
    They convert dead organic matter into energy for themselves and other organisms
    They break down inorganic matter, releasing energy for other organisms
    30s
  • Q14
    Which of the following statements accurately compares and contrasts photosynthesis and chemosynthesis?
    Photosynthesis requires sunlight, while chemosynthesis does not.
    Photosynthesis and chemosynthesis both produce oxygen as a byproduct.
    Photosynthesis and chemosynthesis both take place in animals.
    Photosynthesis and chemosynthesis both require sunlight.
    30s
  • Q15
    Why is the pyramid shape used to represent energy, biomass, and numbers pyramids?
    It visually represents the increasing amount of energy, biomass, or numbers at higher trophic levels.
    It visually represents the constant amount of energy, biomass, or numbers at each trophic level.
    It visually represents the decreasing amount of energy, biomass, or numbers at higher trophic levels.
    It visually represents the random distribution of energy, biomass, or numbers across trophic levels.
    30s

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