Food
Organelles
Photosynthesis
Respiration
Potpourri
100

The original source of energy for most life on this planet.

the sun

100

This is the organelle for aerobic cellular respiration.

mitochondria

100

This is an example of an organism that could do photosynthesis.

any autotroph (plant or algae)

100

Cellular respiration is responsible for breaking down this molecule.

glucose

100

This is a reactant of photosynthesis that is not recycled.

sunlight

200

These types of organisms can make their own food.

autotrophs or producers

200

This is the organelle for photosynthesis.

chloroplast

200

This macromolecule is the food produced by autotrophs.

carbohydrates or sugars

200

These are the two types of respiration.

aerobic and anaerobic

200

This molecule is released into the atmosphere by photosynthesis and taken from the atmosphere by cellular respiration.

oxygen

300

The source of energy for heterotrophs.

other organisms

300

Chloroplasts contain thousands of these pigment molecules.

chlorophyll

300

These are two molecules needed for photosynthesis.

water and carbon dioxide

300
Although they produce different amounts, both types of respiration produce this energy molecule.

ATP

300

This molecule is used during aerobic respiration, but not during anaerobic respiration.

oxygen

400

This is an example of an organic compound.

sugar/carb, protein, lipid, nucleic acid

400

The inside of this organelle is composed of stacks of thylakoids with surrounding stroma.

chloroplast

400

Autotrophs use this molecule and rearrange those atoms to make food.

carbon dioxide

400

When food is broken down, this molecule is released as a waste product.

carbon dioxide (technically water too)

400

This is one way in which photosynthesis and cellular respiration are "biochemical pathways."

the products of one are the reactants of the other

500

The matter that is converted into organic compounds by autotrophs.

carbon from carbon dioxide

500

The inside of this organelle is a highly folded inner membrane and surrounding matrix.

mitochondria

500

Photsynthesis can be said to convert ___ to ___.

light energy to chemical energy

500

These two processes follow glycolysis in the presence of oxygen in the mitochondria.

Krebs Cycle and ETC

500

In order, these 5 processes are involved in converting energy from sunlight into ATP.

light reactions
light-independent reactions/Calvin Cycle
glycolysis
Krebs Cycle
ETC

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