Answer:
A. glycolysis (it's an anaerobic process)
B. the Kreb's cycle (glycolysis occurs in the cytosol, et chain in the inner mitochondrial membrane)
C. glycolysis
D. et chain
E. et chain
F. Kreb's cycle
G. Kreb's cycle
H. et chain (when oxygen at the end of the chain combines with electrons/hydrogen ions)
Hope ya found this helpful! :)
Answer:
The ability to absorb other cells gave some prokaryotes a survival advantage.
Explanation:
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Explanation:
Riddick DM Inc cucumber CTN ay be bunching
Answer:
Large quantities of water molecules constantly move across cell membranes by simple diffusion, often facilitated by movement through membrane proteins, including aquaporins. In general, net movement of water into or out of cells is negligible. For example, it has been estimated that an amount of water equivalent to roughly 100 times the volume of the cell diffuses across the red blood cell membrane every second; the cell doesn't lose or gain water because equal amounts go in and out. There are, however, many cases in which net flow of water occurs across cell membranes and sheets of cells. An example of great importance to you is the secretion of and absorption of water in your small intestine. In such situations, water still moves across membranes by simple diffusion, but the process is important enough to warrant a distinct name - osmosis.
Answer:
100g/500mL
Explanation:
1ml is .001 of 1 L
this means that per one ml, there is 200g*.001, or .2g/mL, or simply .2g.
now we multiply this by 500, for the 500ml we are calculating. 500*.2=100.
We can also skip these steps and take 200g*.5L, as 500mL is 1/2 liter. We get the same outcome, so the answer is 100g