evaporation
evaporation
The magnitude of the concentration gradient across the membrane.
Glycolysis forms a net profit of two ATP molecules. Two ATPs are required to begin this process, and the product is four ATP molecules.
The water is not moving equilibrium.
Two, net.
You would need 50 molecules of glucose to net 1800 ATP molecules in aerobic respiration. This number can be found by dividing 36 net ATP created by glucose with 1800.
There is a net precipitation when molecules in the air are moving together
Water attracts polar molecules and repels non-polar molecules because water has polar molecules. Water does have a net dipole though it doesn't have net charge.
The magnitude of the concentration gradient across the membrane.
There is no net movement of water molecules in and out of the cell.
a net inward force, due mostly to hydrogen bonding.
The products of cellular respiration are 6 molecules of carbon dioxide, 6 molecules of water, and a net gain of 36 ATP (energy).
The net movement of water molecules from a region of high water potential to a region of low water potential across a permeable membrane
If there was less H20 molecules in the cell than outside
Osmosis is the net movement of water molecules from a region of higher water potential to a region of lower water potential through a partially-permeable membrane.
This question is probably asking about microwave ovens. Water molecules have a net dipole moment, and microwave radiation causes them to rotate as the dipoles interact with the electromagnetic field. This increased motion of the water molecules translates into heat as they bump into other molecules and each other. Other polar molecules such as proteins are also affected in a similar way.
False. There will still be movement of water molecules across the membrane, but there will be no net movement. This means that the number of molecules coming into the cell will equal that going out, and equilibrium will therefore be maintained.
Glycolysis forms a net profit of two ATP molecules. Two ATPs are required to begin this process, and the product is four ATP molecules.