Wiki User
∙ 11y agoIt would be higher
Wiki User
∙ 11y agoThe pH of the solution could change during an enzymatic reaction. It could either increase or decrease depending on the specific reaction and the components involved.
A peptidyl transferase enzyme would catalyze the condensation reaction of two amino acids to form a peptide bond. This enzymatic reaction is essential for protein synthesis in living organisms.
If the Na2S2O3 solution were omitted, the appearance of the solution would not change significantly for each kinetic trial. Na2S2O3 is a reagent that acts as a reducing agent and is not directly involved in the appearance of the reaction solution. Its absence would likely affect the reaction rate rather than the visual appearance of the solution.
If an active site is blocked by another molecule, it could prevent the substrate from binding to the enzyme, inhibiting the enzyme's function. This can lead to a decrease in the rate of the enzymatic reaction or complete inhibition of the reaction.
If you add iron to a solution of magnesium sulfate, a displacement reaction would occur, where the iron would displace the magnesium in the sulfate compound. This would result in the formation of iron sulfate and magnesium metal.
When astatine solution is added to sodium bromide solution, a reaction is likely to occur where astatine displaces bromine to form astatide ions. This would result in the formation of astatide ions in solution and sodium bromide precipitating out as a solid, which can be observed as a color change or cloudy appearance in the solution.
Yes, feedback inhibition is a mechanism where the end product of a reaction inhibits the enzyme earlier in the pathway. This helps regulate the production of the end product by preventing over-accumulation. So, the enzymatic reaction would slow down or stop when the end product reaches a certain concentration.
A peptidyl transferase enzyme would catalyze the condensation reaction of two amino acids to form a peptide bond. This enzymatic reaction is essential for protein synthesis in living organisms.
electrolyte.electrolyteIn solution
If the Na2S2O3 solution were omitted, the appearance of the solution would not change significantly for each kinetic trial. Na2S2O3 is a reagent that acts as a reducing agent and is not directly involved in the appearance of the reaction solution. Its absence would likely affect the reaction rate rather than the visual appearance of the solution.
a really concentrated solution would undergo a reaction quiet dramatically. the colour of the solution would be darker
If an active site is blocked by another molecule, it could prevent the substrate from binding to the enzyme, inhibiting the enzyme's function. This can lead to a decrease in the rate of the enzymatic reaction or complete inhibition of the reaction.
If you add iron to a solution of magnesium sulfate, a displacement reaction would occur, where the iron would displace the magnesium in the sulfate compound. This would result in the formation of iron sulfate and magnesium metal.
The energy needed to support the endothermic reaction is supplied by the solution; thus the solution temperaturedecreases.If the reaction were exothermic, the solution temperature would increase.
When astatine solution is added to sodium bromide solution, a reaction is likely to occur where astatine displaces bromine to form astatide ions. This would result in the formation of astatide ions in solution and sodium bromide precipitating out as a solid, which can be observed as a color change or cloudy appearance in the solution.
In general, cooling a solution slows the reaction. You can use the Arrhenius equation to figure out what effect a given temperature will have on a particular reaction (you'll need to know the activation energy).
If you add universal indicator solution to the water after the reaction with potassium, the indicator will change color depending on the pH of the solution. Potassium reacts with water to form potassium hydroxide, which is a strong base. The solution will likely turn purple or blue indicating a high pH.
When NH4I is dissolved in H2O, it will dissociate into its ions, forming NH4+ and I- ions in the solution. This reaction is considered a dissociation reaction rather than a chemical reaction where new substances are formed.