Biology U3 Aos2 - inputs + outputs

0.0(0)
Studied by 0 people
call kaiCall Kai
Locked
learnLearn
examPractice Test
spaced repetitionSpaced Repetition
heart puzzleMatch
flashcardsFlashcards
GameKnowt Play
Card Sorting

1/20

encourage image

There's no tags or description

Looks like no tags are added yet.

Last updated 1:09 AM on 5/25/26
Name
Mastery
Learn
Test
Matching
Spaced
Call with Kai
Chat

No analytics yet

Send a link to your students to track their progress

21 Terms

1
New cards

Photosynthesis worded equation

Carbon Dioxide + Water > Glucose + Oxygen. Requirements: sunlight and chlorophyll

2
New cards

Inputs for Light Dependent Stage

NADP+, ADP, Water

3
New cards

Outputs for Light Dependent Stage

NADPH, ATP, Oxygen

4
New cards

Inputs for Calvin Cycle

NADPH, ATP, Carbon Dioxide

5
New cards

Outputs for Calvin Cycle

NADP+, ADP, Glucose

6
New cards

Where Light Dependent Stage Occurs

Thylakoid Membrane

7
New cards

Where Calvin Cycle occurs

Stroma

8
New cards

Aerobic Respiration Worded Equation

Glucose + Oxygen > Carbon Dioxide + Water + 30-32 ATP

9
New cards

Inputs for Glycolysis

Glucose, NAD+, ADP + Pi

10
New cards

Outputs for Glycolysis

Pyruvate, NADH, ATP

11
New cards

Where Glycolysis Occurs

Cytosol

12
New cards

Glycolysis ATP yield

2 ATP

13
New cards

Inputs for the Krebs Cycle

Pyruvate, NAD+, FAD, ADP + Pi

14
New cards

Outputs of the Krebs Cycle

CO2, NADH, FADH2, ATP

15
New cards

ATP Yield for Krebs Cycle

2 ATP

16
New cards

Where the Krebs Cycle occurs

Mitochondrial Matrix

17
New cards

Inputs for the Electron Transport Chain

O2, ADP + Pi, NADH, FADH2

18
New cards

Outputs of the Electron Transport Chain

H2O, ATP, NAD+, FAD

19
New cards

Electron Transport Chain ATP Yield

26-28 ATP

20
New cards

Where the Electron Transport Chain Occurs

Cristae

21
New cards

Oxygen in the Electron Transport Chain

Oxygen is the final electron acceptor, where it splits from an O2 molecule into two oxygen atoms, where it accepts hydrogens from the matrix to form water (H2O). This maintains the concentration gradient, allowing ATP to continue to be produced