It produces H3O+ ions
the solvent the solute is the substance being dissolved and the solvent is the substance (liquid) the solute dissolves in ie: adding sweet 'n' low to iced tea, the solute is the sweet 'n' low and the solvent is the iced tea
The reaction for benzoic acid and methyl amine produces benzamide. The equation is C6H5COOH + CH3NH2 ---> C6H5CONHCH3 + H2O.
pipette out 8.5 ml perchloric acid in to 500 ml acetic acid and add 21 ml of acetic anhydride make up to volume to 1000 ml with acetic acid.Stand iday this solution and and check the water content not exceedsto 0.025 to 0.5% then standardize the solution by PHP
Deoxiribose nuclic acid RNA ribos nuclic acid
The N-terminal amino acid in the peptide Ala-Try-Gly-Phe is alanine (Ala) because it is the first amino acid in the sequence.
when we add water n sulphuric acid then dilute sulphuric acid is formed. But we have to mix concentrated acid to water not water to acid otherwise the container in which u r mixing may explode because this reaction is highly exothermic.
Its called Vacuoles
In the stomach , the acid dissolves the food and it takes a ride on blood to the ANUS BY Tia N from Harris Merton
This is not a simple answer but nevertheless a complete one according to the Bronsted-Lowry acid / base theory. Acid in water: H3O+ ions from the acid (as proton donor to a water molecule) and the conjugated base anion (negative) as the left over part of the original acid molecule. Example: HCl + H2O --> H3O+ + Cl- Base in water: Most bases are negative anions from basic salts. You'll find in solution (some) OH- ions (together with (base)- ions) and the accompanying metal ion (together with some conjugated acid). Example of acetate base: NaF + H2O --> Na+ + F- + OH- + HF Example of an exception, ammonia: NH3(g) + H2O --> NH4+ + OH-
The limit of water content in 0.1 N perchloric acid is typically very low, as perchloric acid is a strong acid and tends to be anhydrous (contains very little water). However, trace amounts of water may be present due to absorption from the atmosphere.
its called a solute. so in the water-salt mix, the water is thesolvent n the salt is the solute. -PJ
This is not a simple answer but nevertheless a complete one according to the Bronsted-Lowry acid / base theory. Acid in water: H3O+ ions from the acid (as proton donor to a water molecule) and the conjugated base anion (negative) as the left over part of the original acid molecule. Example: HCl + H2O --> H3O+ + Cl- Base in water: Most bases are negative anions from basic salts. You'll find in solution (some) OH- ions (together with (base)- ions) and the accompanying metal ion (together with some conjugated acid). Example of acetate base: NaF + H2O --> Na+ + F- + OH- + HF Example of an exception, ammonia: NH3(g) + H2O --> NH4+ + OH-
You can change the concentration of hydrochloric acid by diluting it with water to decrease the concentration or by adding more concentrated hydrochloric acid to increase the concentration. Remember to always add acid to water, not water to acid, to avoid splattering.
Acetic acid is more soluble in n-butanol than in water due to the similar polarities of acetic acid and n-butanol, which allows for stronger intermolecular interactions such as hydrogen bonding and dipole-dipole interactions. Water, on the other hand, is a polar solvent that interacts more strongly with other polar molecules, resulting in lower solubility of acetic acid in water.
Octyl benzoate can be formed by reacting octanol (alcohol) and benzoic acid in the presence of a catalyst like sulfuric acid. The reaction will produce octyl benzoate and water as byproduct.
To make a 1 N sulfuric acid solution from 5.25 N sulfuric acid, you need to dilute the concentrated solution with water. The dilution ratio can be calculated using the formula M1V1 = M2V2, where M1 is the initial concentration (5.25 N), V1 is the volume of the concentrated solution you'll use, M2 is the final concentration (1 N), and V2 is the total volume of the diluted solution you want to make. Calculate V1 and dilute the concentrated acid with the appropriate amount of water to achieve the desired 1 N concentration.
"salt"