The major reservoirs of the carbon cycle are best represented by atmosphere, oceans, sediments, terrestrial biosphere.
What are the major reservoirs of the carbon cycle?(1 point)
Responses
soil, aquatic reservoirs, greenhouse gases, condensation, rain
soil, aquatic reservoirs, greenhouse gases, condensation, rain
plants, animals, oceanic biospheres, freshwater ecosystems
plants, animals, oceanic biospheres, freshwater ecosystems
carbon, oxygen, water, adenosine triphosphate, carbon dioxide
carbon, oxygen, water, adenosine triphosphate, carbon dioxide
atmosphere, oceans, sediments, terrestrial biosphere
9 answers
What energy molecule of the cell powers many other reactions after photosynthesis?(1 point)
Responses
adenosine triphosphate
adenosine triphosphate
adenosine tetraphosphate
adenosine tetraphosphate
adenosine diphosphate
adenosine diphosphate
adenosine monophosphate
Responses
adenosine triphosphate
adenosine triphosphate
adenosine tetraphosphate
adenosine tetraphosphate
adenosine diphosphate
adenosine diphosphate
adenosine monophosphate
The energy molecule of the cell that powers many other reactions after photosynthesis is adenosine triphosphate (ATP).
The process by which autotrophs convert light energy into chemical energy is known as(1 point)
Responses
photosynthesis.
photosynthesis.
carbon cycle.
carbon cycle.
cellular respiration.
cellular respiration.
adenosine triphosphate.
Responses
photosynthesis.
photosynthesis.
carbon cycle.
carbon cycle.
cellular respiration.
cellular respiration.
adenosine triphosphate.
The process by which autotrophs convert light energy into chemical energy is known as photosynthesis.
Where do plants take in carbon dioxide for photosynthesis?(1 point)
Responses
roots
roots
flowers
flowers
stem
stem
leaves
Responses
roots
roots
flowers
flowers
stem
stem
leaves
Plants take in carbon dioxide for photosynthesis primarily through their leaves.
The chemical equation for photosynthesis contains information about(1 point)
Responses
the environment in which the reaction takes place.
the environment in which the reaction takes place.
the number of glucose molecules formed from a given number of reactants.
the number of glucose molecules formed from a given number of reactants.
the physical path reactants and products follow.
the physical path reactants and products follow.
the number of glucose molecules formed by an individual plant.
the number of glucose molecules formed by an individual plant.
Responses
the environment in which the reaction takes place.
the environment in which the reaction takes place.
the number of glucose molecules formed from a given number of reactants.
the number of glucose molecules formed from a given number of reactants.
the physical path reactants and products follow.
the physical path reactants and products follow.
the number of glucose molecules formed by an individual plant.
the number of glucose molecules formed by an individual plant.
The chemical equation for photosynthesis contains information about the number of glucose molecules formed from a given number of reactants.