Use titration to determine the molar concentration of an unknown solution Question Calculate the molar concentration...
Use titration to determine the molar concentration of an unknown solution Question Calculate the molar concentration for H, SO, in the following situation. When 54 ml of it was completely titrated by 25 ml of 1.2 M NaOH, 1 mol of acid was titrated by 2 mol of base. Give your answer in two significant figures. Provide your answer below: м FEEDBACK
506 » Assi Day 24: K Learn Use titration to determine the molar concentration of an unknown solution Question Calculate the molar concentration for H2SO4 when 41 mL of it was completely titrated by 10.9 mL of 0.95 M LiOH, where one mole of acid was titrated by two moles of base. Give your answer in two significant figures. rovide your answer below. м FEEDBACK
Use titration to determine the molar concentration of an unknown solution Question The end point in a titration of a 36 ml sample of aqueous CH COOH was reached by addition of 12 ml of 0.17 M titrant. The titration reaction is CH3COOH + NaOH - CH3COONa+H2O What is the molar concentration of CH,COOH? Give your answer in two significant figures. Provide your answer below: M ORE INSTRUCTION SUB M B FEEDBACK
Understand how to complete titration calculations Question The end point in a titration of a 58 mL sample of aqueous HCl was reached by the addition of 25 mL of 0.83 M NaOH titrant. The reaction proceeds by the following equation. HCl(aq) + NaOH(aq) NaCl(aq) + H2O(1) What is the molar concentration of HCl? • Report your answer with two significant figures. Provide your answer below: Ом - FEEDBACK FEEDBACK MORE INSTRUCTION MORE INSTRUCTION SUBMIT SUBMIT Content attribution Activity Details
To calculate the concentration of a solution using acid–base titration data. In an acid–base titration, an acid (or base) of known concentration is added to a base (or acid) of unknown concentration until the number of moles of H+ and OH- are equal, a condition called the equivalence point. Since you know the number of moles of H+ (or OH- ) that you added, you can determine the number of moles of OH- (or H+) in the unknown solution. For...
To calculate the concentration of a solution using acid–base titration data. In an acid–base titration, an acid (or base) of known concentration is added to a base (or acid) of unknown concentration until the number of moles of H+ and OH- are equal, a condition called the equivalence point. Since you know the number of moles of H+ (or OH- ) that you added, you can determine the number of moles of OH- (or H+) in the unknown solution. For...
PRE LAB : Volumetric Titrations. (Acid-Base Titrations) Name: ID Date 1. How many mL of a 0.103M NaOH solution are required to neutralize 10.00mL of a 0.198M HCI solution? 2. what is the difference between end point and equivalence point? 3. A titration is performed and 20.70 mL of 0.500M KOH is required to reach the end point when titrated against 15.00 mL of H2SO4 of unknown concentration. Write the chemical equation and solve for the molarity of the acid....
1.639 g of an unknown diprotic acid are used to make a 100.00 mL solution. Then 25.00 mL of this solution is transferred to an Erlenmeyer flask and is titrated with 0.1032 M NaOH. The titration endpoint is reached after 0.00414 mol of NaOH is added using the burette. What is the molar mass of the diprotic acid? Provide your answer to the correct number of significant figures.
KOH (concentration = 0.2205 M) is used in a titration to determine the amount of acetic acid (CH3COOH) in vinegar! 50 mL of vinegar was diluted to 500 mL in a volumetric flask. 25 mL of the diluted vinegar solution was titrated five times with the KOH. The concentration of acetic acid in the DILUTED vinegar sample is 0.2171 M Calculate the concentration of acetic acid in the ORIGINAL vinegar solution Give your answer in g/L MM CH3COOH = 60.05...
The titration of 10.00 mL of an HCl solution of unknown concentration requires 50.75 ml of 0.0621 M KOH solution to reach equivalence. What is the concentration of the HCI solution in M (mol/L). give your answer to two decimal places