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Trophic level efficiency is the ratio of production of one trophic level to the production of the next lower trophic level. This efficiency is never high.
Due to poor trophic transfer efficiency, most energy is lost at higher trophic levels.
Answer: NAD+. Glycolysis requires a constant supplies of NAD+, which is used to produce NADH. In oxidative phosphorylation, the electron transfer chain will reduce the NADH to NAD+. Fermentation does the same task but in a slower fashion. NAD+ is essential for glycolysis.
You need a glucose molecule and 2 ATP`s to form 36 ATP`s. Glycolysis, piruvate, Krebs cycle, electron transfer chain, ATP synthesis.
The ETC and the coupled reaction of chemiosmosis produces the most ATPs in respiration (~34). Glycolysis and the Krebs Cycle only account for ~4 ATPs. The two processes of the ETC and chemiosmosis, called oxidative phosphorylation is more effective than substrate-level phosphorylation.
That transfer is called phosphorylation.
Glycolysis->Krebs Cycle->Electron Transfer
Increase in transfer efficiency
EPP CODE (or) Domain Transfer code (or) Domain Secret is required to transfer a domain. source: sinpz.com
A; Terminology is not correct a transformer is not really a source but rather a device to transform one source of power to some power that can be used as required minus efficiency of power transfer
Max efficiency of energy transfer can only occur when impedence source matches the impedence of the load.
Everything from climate to the food chain affects the efficiency of energy transfer in an ecosystem. The smallest changes, such as an animal becoming extinct, can have a very dramatic impact on the energy within an ecosystem.
A; Terminology is not correct a transformer is not really a source but rather a device to transform one source of power to some power that can be used as required minus efficiency of power transfer
Engine efficiency is increased though compression ratio by allowing a more thermodynamic energy to be converted into mechanical energy. Energy transfer is the key to efficiency.
i cant answer tahe question please answer the question...
Only 10% of the energy in one level gets to the next. The other 90% is used on movement. If you can figure out how much energy is in one trophic level, you can get how much energy gets to the next level by multiplying it by 0.1
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