Cyclic photophosphorylation is when the electron from the chlorophyll went through the electron transport chain and return back to the chlorophyll.
Noncyclic photophosphorylation is when the electron from the chlorophyll doesn't return back but incorporated into NADPH.
The scientific method can be considered cyclic, as it involves a continuous loop of making observations, forming hypotheses, conducting experiments, analyzing data, and refining theories based on the results. This cyclical nature allows for the iterative nature of scientific inquiry and the advancement of knowledge.
In cyclic photosynthesis, the end product is ATP (adenosine triphosphate) only. In noncyclic photosynthesis, the end products are ATP, NADPH, and oxygen.
No, RuBP (ribulose-1,5-bisphosphate) is not produced during cyclic electron flow in the light reactions of photosynthesis. RuBP is a 5-carbon sugar molecule that plays a key role in the Calvin cycle, where it serves as the substrate for carbon fixation by Rubisco enzyme. Cyclic electron flow involves a cyclic pathway of electron transport to generate ATP without the release of oxygen or the production of NADPH.
Cyclic behavior refers to patterns that repeat or oscillate over time, following a regular sequence or cycle. These patterns can be observed in various natural phenomena, economic trends, biological processes, and other systems. Understanding cyclic behavior can help predict future outcomes or make informed decisions based on past patterns.
The three important events that happen during the light reaction of photosynthesis are light absorption by chlorophyll, water splitting to release oxygen, protons, and electrons, and the generation of ATP and NADPH molecules used in the Calvin cycle.
Meiosis is not cyclic; rather it is a linear process. It does not cycle.
Cyclic and non-cyclic photophosphorylation.
Plants have both cyclic and non-cyclic phosphorylation to maximize energy production and efficiency during photosynthesis. Non-cyclic phosphorylation generates ATP and NADPH for the Calvin cycle, while cyclic phosphorylation produces additional ATP to meet the energy demands of the plant. Together, these two processes ensure that plants have a stable source of energy for growth and survival.
Absorbtion of light by photosystems in cyclic and non-cyclic photophosphorylation.
true
i dont know.....hahaha
Polar
To excite the electrons of chlorophyll and initiate cyclic and non-cyclic photophosphorylation in photosynthesis, light energy is required. The energy from photons of light is absorbed by chlorophyll molecules in the thylakoid membranes of chloroplasts, leading to the excitation of electrons and the subsequent transfer of these electrons through the electron transport chain. This process generates ATP and NADPH, which are essential for the synthesis of carbohydrates during the light-dependent reactions of photosynthesis.
cyclic phosphorylationinvolve PS1 onlyonly ATP producedno photolysis of waterfinal acceptor not NADP,so no production NADPHnon-cyclic phosphorylationinvolve PSI and PSIIATP and NADPH producedinvolved photolysis of waterfinal acceptor is NADP,so there is production NADPH
Pigment I & II systems of cyclic and non-cyclic phosphorylation.
non-cyclic electron pathways
It involves cyclic phosphorylation because electrons are continously recycled. The electrons lost by cholorphyll molecules are gained by DCPIP and vice versa. Thus, the hill reaction only involves cyclic phosphorylation, unless the electrons are lost to the surrounding environment.