concentration of glucose in the urine decreases.
If not enough insulin is produced, the concentration of blood glucose will increase because insulin is responsible for helping glucose enter cells to be used for energy. Without enough insulin, glucose remains in the bloodstream, leading to high blood sugar levels, a condition known as hyperglycemia.
When 40 grams of glucose is suspended in 40 grams of glucose, it creates a concentrated solution of glucose. Since both the solvent and solute are the same substance (glucose), there is no effective dilution or change in concentration; the solution remains essentially a saturated glucose solution. The physical properties may change slightly, but chemically, it remains the same compound. This scenario essentially results in a more viscous solution due to the increased concentration of glucose.
Glucose in the filtrate is reabsorbed from the nephron back into the bloodstream through the walls of the renal tubules. This process occurs mainly in the proximal convoluted tubule, where glucose transporters actively reabsorb glucose to maintain its concentration in the blood. If there is excess glucose that cannot be reabsorbed, it may be excreted in the urine.
When the volume of the reaction system is decreased, the equilibrium will shift towards the side of the reaction with fewer moles of gas to relieve the pressure. This causes the concentration of reactants to increase in order to establish a new equilibrium.
Concentration increases
If not enough insulin is produced, the concentration of blood glucose will increase because insulin is responsible for helping glucose enter cells to be used for energy. Without enough insulin, glucose remains in the bloodstream, leading to high blood sugar levels, a condition known as hyperglycemia.
If you increase the hydroxide ion concentration, the equilibrium will shift towards the formation of more water molecules. This will result in a decrease in the hydronium ion concentration.
There was no diffusion, because equilibrium was already established.
The concentration of sodium chloride increase.
The concentration of salt increase up to saturation.
No, glucose is a substance, osmosis is a process. Glucose is a simple sugar and is made by photosynthesis in plant cells. Osmosis is the flow of water through a semi-permeable membrane from a region where there is a higher concentration of water to where there is a lower concentration of water. Osmosis happens in plant cells because the cell membrane is semi-permeable. The direction of water flow depends on how much glucose is dissolved in the cell sap compared to how much is in the liquid surrounding the cells. Thus glucose is involved in the process of photosynthesis.
An increase in the solute concentration of the filtrate leads to an increase in osmotic pressure in the nephron tubules. This triggers more water reabsorption from the filtrate, reducing urine volume and maintaining overall body fluid balance.
The rate of enzyme reaction is increased when the substrate concentration is also increased. However, when it reaches the maximum velocity of reaction, the reaction rate remains constant.
The hydroxide ion concentration would decrease in response to the increase in hydrogen ion concentration. This is due to the neutralization reaction that occurs between the added acid (which releases H+ ions) and the hydroxide ions (OH-) present in the solution.
No. A base decreases the amount of hydronium, and increases the amount of hydroxide.
Glucose in the filtrate is reabsorbed from the nephron back into the bloodstream through the walls of the renal tubules. This process occurs mainly in the proximal convoluted tubule, where glucose transporters actively reabsorb glucose to maintain its concentration in the blood. If there is excess glucose that cannot be reabsorbed, it may be excreted in the urine.
the concentration of Cl- increase (common ion), but the pH of the solution remain same.