Chemical energy for respiration is stored in the bonds of (1 point)
Responses
carbon dioxide molecules.
carbon dioxide molecules.
glucose molecules.
glucose molecules.
water molecules.
water molecules.
oxygen molecules.
9 answers
glucose molecules.
Why do organisms need to obtain energy via cellular respiration?(1 point)
Responses
to perform glycolysis
to perform glycolysis
to break down ATP
to break down ATP
to photosynthesize
to photosynthesize
to grow and reproduce
Responses
to perform glycolysis
to perform glycolysis
to break down ATP
to break down ATP
to photosynthesize
to photosynthesize
to grow and reproduce
to grow and reproduce
Which statement best describes energy release in cellular respiration? (1 point)
Responses
Stored chemical energy is broken down and released in the cytoplasm.
Stored chemical energy is broken down and released in the cytoplasm.
Stored chemical energy can be used immediately and is released in the cytoplasm.
Stored chemical energy can be used immediately and is released in the cytoplasm.
Stored chemical energy is broken down and released in the mitochondria.
Stored chemical energy is broken down and released in the mitochondria.
Stored chemical energy can be used immediately and is released in the mitochondria.
Responses
Stored chemical energy is broken down and released in the cytoplasm.
Stored chemical energy is broken down and released in the cytoplasm.
Stored chemical energy can be used immediately and is released in the cytoplasm.
Stored chemical energy can be used immediately and is released in the cytoplasm.
Stored chemical energy is broken down and released in the mitochondria.
Stored chemical energy is broken down and released in the mitochondria.
Stored chemical energy can be used immediately and is released in the mitochondria.
Stored chemical energy is broken down and released in the mitochondria.
What is the equation for cellular respiration?
The equation for cellular respiration is:
Glucose + Oxygen -> Carbon Dioxide + Water + ATP
Glucose + Oxygen -> Carbon Dioxide + Water + ATP
Glycolysis breaks glucose into (1 point)
Responses
three smaller molecules.
three smaller molecules.
four smaller molecules.
four smaller molecules.
two smaller molecules.
two smaller molecules.
five smaller molecules.
Responses
three smaller molecules.
three smaller molecules.
four smaller molecules.
four smaller molecules.
two smaller molecules.
two smaller molecules.
five smaller molecules.
The correct answer is: two smaller molecules.