Explanation:
A and D
A. A pressure equal to that of the osmotic pressure will result in reverse osmosis.
D. The movement of the solvent particles from the concentrated solution to the dilute solution is known as reverse osmosis.
During osmosis, water molecules from the less concentrated right side, will flow into the left side til they equilibrate- at equilibrium both sides will have the same concentration of solute.
Thus, the water passes through the membrane due to the difference in osmotic pressure/ solute concentration on either side of the membrane, this means that the water moves from regions of high osmotic pressure/concentration to regions of low osmotic pressure /concentration.
Water potential equal to the pressure potential shifts the equilibrium, resulting in the movement of solute.
<h3> φ= φs+φp</h3>
However, in reverse osmosis, solute molecules move from regions of high solute concentration, to regions of low solute concentration across the membrane.
Learn more about membrane components at brainly.com/question/1971706
Learn more about osmosis at brainly.com/question/5825825
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1. Leave everything alone and don't touch the glass .
2. Tell a Teacher .
3. And that's it .
Answer:
Option C. 1.60x10^26 molecules
Explanation:
Avogadro's hypothesis proved that that 1 mole of any substance contains 6.02x10^23 molecules.
From the above, we understood that 1 mole of CCl4 contains 6.02x10^23 molecules.
If 1 mole of CCl4 contains 6.02x10^23 molecules,
then, 265 moles of CCl4 will contain = 265 x 6.02x10^23 = 1.60x10^26 molecules
From the calculation made above, 265 moles of CCl4 contains 1.60x10^26 molecules.
Answer: Limitations to population growth are either density-dependant or density-independent. Density-dependent factors include disease, competition, and predation. Density-dependant factors can have either a positive or a negative correlation to population size.
Explanation:
