The process of titrating a standard of ____ concentration against a solution of ______ concentration is...

A solution of MgCl2 is standardized by titrating 25.00 mL aliquots of the solution with a...

A solution of MgCl2 is standardized by titrating 25.00 mL aliquots of the solution with a 0.01162 M EDTA solution, using eriochrome black T as the indicator. The volumes of titrant required for the titration of three aliquots are given in the table below. Determine the concentration of the MgCl2 solution and its standard deviation. (4 pts) aliquot Volume EDTA (mL) 1 39.83 2 40.03 3 39.97

A student was titrating 25.00 mL of a monoprotic basic solution with a monoprotic acidic solution...

A student was titrating 25.00 mL of a monoprotic basic solution with a monoprotic acidic solution that was 0.281 M. The student ran out of the acidic solution after having added 32.46 mL, so she borrowed a solution that was labeled as 0.317 M. An additional 11.5 mL of the second solution was needed to complete the titration. What was the concentration of the basic solution? I know how to solve simple titration but how do I solve a multistep...

In titrating an acid of unknown concentration, a 20.00 mL sample of the acid was titrated...

In titrating an acid of unknown concentration, a 20.00 mL sample of the acid was titrated using standardized sodium hydroxide. The NaOH had a concentration of 0.1105 M. The titration required 35.45 mL of the base to reach the end-point in the titration. a) How many moles of H+ was in the 20.00 mL sample of acid? b) The solution of acid was prepared by adding 9.605 grams of the acid to 1.000 liter of water. What was the molecular...

You are titrating 50mL of diprotic acid H2X with standardized 0.01M NaOH solution. It takes 25...

You are titrating 50mL of diprotic acid H2X with standardized 0.01M NaOH solution. It takes 25 mL of NaOH to reach the first equivalence point. a. Write down the balanced equation for each of the titration reactions b. What is the volume of base needed to reach the second equivalence point c. Calculate the concentration (M) of the unknown acid solution, H2X

You need to determine the concentration of a sulfuric acid solution by titration with a standard...

You need to determine the concentration of a sulfuric acid solution by titration with a standard sodium hydroxide solution. You have a 0.1824 M standard solution. You take a 25.00 mL sample of the original acid solution and dilute it to 250.0 mL. You then take a 10.00 mL sample of the dilute acid solution and titrate it with the standard solution. You need 15.84 mL of the standard solution to reach the endpoint. What is the concentration of the...

You need to determine the concentration of a sulfuric acid solution by titration with a standard...

You need to determine the concentration of a sulfuric acid solution by titration with a standard sodium hydroxide solution. You have a 0.1920 M standard solution. You take a 25.00 mL sample of the original acid solution and dilute it to 250.0 mL. You then take a 10.00 mL sample of the dilute acid solution and titrate it with the standard solution. You need 19.18 mL of the standard solution to reach the endpoint. What is the concentration of the...

You need to determine the concentration of a sulfuric acid solution by titration with a standard...

You need to determine the concentration of a sulfuric acid solution by titration with a standard sodium hydroxide solution. You have a 0.1126 M standard solution. You take a 25.00 mL sample of the original acid solution and dilute it to 250.0 mL. You then take a 10.00 mL sample of the dilute acid solution and titrate it with the standard solution. You need 14.59 mL of the standard solution to reach the endpoint. What is the concentration of the...

You need to determine the concentration of a sulfuric acid solution by titration with a standard...

You need to determine the concentration of a sulfuric acid solution by titration with a standard sodium hydroxide solution. You have a 0.1104 M standard solution. You take a 25.00 mL sample of the original acid solution and dilute it to 250.0 mL. You then take a 10.00 mL sample of the dilute acid solution and titrate it with the standard solution. You need 14.90 mL of the standard solution to reach the endpoint. What is the concentration of the...

You need to determine the concentration of a sulfuric acid solution by titration with a standard...

You need to determine the concentration of a sulfuric acid solution by titration with a standard sodium hydroxide solution. You have a 0.1015 M standard solution. You take a 25.00 mL sample of the original acid solution and dilute it to 250.0 mL. You then take a 10.00 mL sample of the dilute acid solution and titrate it with the standard solution. You need 19.16 mL of the standard solution to reach the endpoint. What is the concentration of the...

An analytical chemist is titrating 187.2mL of a 0.5700M solution of propylamine C3H7NH2 with a 0.4700M...

An analytical chemist is titrating 187.2mL of a 0.5700M solution of propylamine C3H7NH2 with a 0.4700M solution of HNO3 . The pKb of propylamine is 3.46 . Calculate the pH of the base solution after the chemist has added 244.6mL of the HNO3 solution to it.