QUESTION IMAGE
Question
photosynthesis
- on diagram 6, complete the following tasks.
a) label psi and psii.
b) draw the path of the electron transport chain
the events of the light reactions
- for psii, the cytochrome complex, and psi, draw and label what happens at that structure on diagram 6. then describe the events in a bulleted list in table 1.
table 1: descriptions of the steps in the light reactions.
| structure | what is happening with matter? | what is happening with energy? |
| psii | ||
| cytochrome complex | ||
| psi |
- at the end of the electron transport chain, where is the light energy that was absorbed and converted by chlorophyll stored? list two answers.
Step1: Identify the tasks
The tasks involve diagram - related activities (labeling and drawing) and descriptive tasks about the light - reactions of photosynthesis.
Step2: Understand the light - reactions
In the light - reactions, PSII, the cytochrome complex, and PSI are key components. PSII starts the process by splitting water and exciting electrons.
Step3: Analyze the role of the cytochrome complex
The cytochrome complex is involved in electron - transfer and proton - pumping, which is crucial for ATP production.
Step4: Analyze the role of PSI
PSI further excites electrons and is involved in the reduction of NADP+ to NADPH.
Step5: Determine energy storage
At the end of the electron - transport chain, the energy is stored in the high - energy bonds of NADPH and ATP.
Snap & solve any problem in the app
Get step-by-step solutions on Sovi AI
Photo-based solutions with guided steps
Explore more problems and detailed explanations
a) (Labeling PSI and PSII on the diagram is a visual - task. One would identify the two photosystems on the thylakoid membrane and label them clearly. Since this is a text - based response, we can't actually draw on the diagram, but in practice, PSII is usually the first one in the electron - transport chain sequence and PSI is the second).
b) (To draw the path of the electron - transport chain: Electrons are excited in PSII by photons. They are passed through a series of electron carriers including the cytochrome complex. Then they move to PSI where they are further excited by photons and used to reduce NADP+ to NADPH. The path would start from PSII, go through the cytochrome complex, and end at PSI with the production of NADPH).
3.
| Structure | What is happening with matter? | What is happening with energy? |
|---|---|---|
| Cytochrome complex | Electrons are passed through a series of protein carriers. Protons are pumped from the stroma into the thylakoid lumen. | Energy from the electron transfer is used to pump protons across the membrane, creating a proton - gradient. |
| PSI | Electrons are excited again by photons. NADP+ is reduced to NADPH using electrons and protons. | Light energy excites electrons in PSI, and this energy is used to drive the reduction of NADP+. |
- The light energy absorbed and converted by chlorophyll is stored as:
- Chemical energy in NADPH.
- Chemical energy in ATP (from the proton - gradient used in chemiosmosis to phosphorylate ADP to ATP).