four drops of indicator was added to a 50.00 mL sample of pond water. The sample...
four drops of indicator was added to a 50.00 mL sample of pond water. The sample was titrated with an EDTA solution that was determined to be 0.01421M. The initial burette reading was 1.16mL. When the color or the solution changed from red to blue, the burette reading was 23.96mL.
a) calculate the volume of the EDTA solution added during the titration
b) calculate the molarity of calcium in the water sample
c) express the concentration of the water sample in terms of ppm CaCO3
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Homework Answers
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four drops of indicator was added to a 50.00 mL sample of pond
water. The sample...
CALCIUM HARDNESS DETERMINATION Fill a 50 mL burette with 0.01 M EDTA solution, making sure the...
CALCIUM HARDNESS DETERMINATION Fill a 50 mL burette with 0.01 M EDTA solution, making sure the tip is full and free of air bubbles. Set Start volume. Add 50.00 mL of an unknown hard water solution into a 100 mL beaker. Obtain Magnetic Stirrer from Equipment menu. Place beaker on stirrer. Increase Stir from the context menu. Add 4 mL of 1.0 M Sodium Hydroxide. Add 100 mg of Murexide indicator. Titrate with the 0.01 M EDTA until the color...
Determining the Hardness of Water (from like a local well) a) Determine the total hardness of...
Determining the Hardness of Water (from like a local well) a) Determine the total hardness of 100ml sample of hard water if 25.6ml of 0.1000M EDTA was titrated into the solution. The solution also contained 2ml of pH 10 ammonium buffer and some eriochrome black indicator for the titration process to occur. Please report this value as mg CaCO3/L. (ppm) b) Determine the calcium concentration of the same 100ml hard water sample if 20.1ml of 0.1000M EDTA was titrated into...
Hardness in groundwater is due to the presence of metal ions, primarily Mg2+ and Ca2+. Hardness...
Hardness in groundwater is due to the presence of metal ions, primarily Mg2+ and Ca2+. Hardness is generally reported as ppm CaCO3. To measure water hardness, a sample of groundwater is titrated with EDTA, a chelating agent, in the presence of the indicator Eriochrome Black T, symbolized as In. Eriochrome Black T, a weaker chelating agent than EDTA, is red in the presence of Ca2+ and turns blue when Ca2+ is removed. red blue Ca(In)2+ +EDTACa(EDTA) 2+ In A 50.00...
Hardness in groundwater is due to the presence of metal ions, primarily Mg2 and Ca2t. Hardness...
Hardness in groundwater is due to the presence of metal ions, primarily Mg2 and Ca2t. Hardness is generally reported as ppm CaCO3. To measure water hardness, a sample of groundwater is titrated with EDTA, a chelating agent, in the presence of the indicator eriochrome black T, symbolized here as In. Eriochrome black T, a weaker chelating agent than EDTA, is red in the presence of Ca2 and turns blue when Ca2+ is removed. red blue Ca(ln)2+-EDTA → Ca(EDTA,-+ + In...
1. A 10.00 mL aliquot of 0.010 M CaCO3 is titrated with 18.22 mL of EDTA...
1. A 10.00 mL aliquot of 0.010 M CaCO3 is titrated with 18.22 mL of EDTA solution. What is the EDTA molarity? 2. A 250.0 mL water sample requires 30.85 mL of the EDTA solution from question 1 to reach the calmagite endpoint. What was the molarity of the hard metal ions in the water sample? 3. If the metal ions in the water sample of question 2 are assumed to be Ca2+ from CaCO3, express the concentration in ppm...
6. In an experiment, the molecular formula for calcium hydroxide was determined to be Ca(OH)2. In...
6. In an experiment, the molecular formula for calcium hydroxide was determined to be Ca(OH)2. In this experiment, 0.55 g of Ca (s) was added to 150 mL of DI water. After add- ing 10 drops of 0.1% thymol blue indicator, the solution was titrated with 0.30 M HCI. a) Write the balanced equation for the net ionic reaction that occurred during the titration. b) Calculate the volume of 0.30 M HCl required to reach the end point of the...
A 50.00 mL aliquot of a hard water sample is titrated with 15.00 mL of 0.01280...
A 50.00 mL aliquot of a hard water sample is titrated with 15.00 mL of 0.01280 M EDTA. A second 50.00 mL aliquot portion is made sufficiently alkaline with NaOH to precipitate the Mg ions. The precipitate was filtered and the filtrate was titrated with 10.00 mL of 0.01280 EDTA. Calculate the ppm Mg and Ca in the water sample.
The calmagite indicator changes from a pink to a blue color during the titration. Describe why...
The calmagite indicator changes from a pink to a blue color during the titration. Describe why the color change occurs. This question is part of the experiment "determination of water hardness", and you should answer the question based on the following background information(abstract information and you can get the answer). In this titration Calmagite is used an indicator for both calcium and magnesium. The equation below shows the competition reaction between the calmagite indicator (In) and EDTA for Mg and...
1. Write the balanced equation for the reaction between calcium carbonate and hydrochloric acid in water,...
1. Write the balanced equation for the reaction between calcium carbonate and hydrochloric acid in water, generating aqueous calcium chloride and liberating carbon dioxide gas. (You will need this for Part 1 of the experiment!) 2. Calculate the concentration of one liter of the resulting calcium chloride solution (assuming you started with 102.7 mg of calcium carbonate) in units of molar and millimolar. Also calculate the concentration in "parts-per-million as CaCO3". (Refer to section 13.5 of your textbook, if needed.)...
2. Calculate the concentration of one liter of the resulting calcium chloride solution (assuming you started...
2. Calculate the concentration of one liter of the resulting
calcium chloride solution (assuming you started with 102.7 mg of
calcium carbonate) in units of molar and millimolar. Also calculate
the concentration in “parts-per-million as CaCO3”. (Refer to
section 13.5 of your textbook, if needed.)
a. If a standard Ca2+ solution is 100 ppm and 50 mL of solution
is used for the standardization, calculate the approximate volume
of 2.5 mM EDTA4- solution needed to reach the end point of...
Hardness in groundwater is due to the presence of metal ions, primarily Mg2+ and Ca2+. Hardness is generally reported as ppm CaCO3. To measure water hardness, a sample of groundwater is titrated with EDTA, a chelating agent, in the presence of the indicator Eriochrome Black T, symbolized as In. Eriochrome Black T, a weaker chelating agent than EDTA, is red in the presence of Ca2+ and turns blue when Ca2+ is removed. red blue Ca(In)2+ +EDTACa(EDTA) 2+ In A 50.00...
Hardness in groundwater is due to the presence of metal ions, primarily Mg2 and Ca2t. Hardness is generally reported as ppm CaCO3. To measure water hardness, a sample of groundwater is titrated with EDTA, a chelating agent, in the presence of the indicator eriochrome black T, symbolized here as In. Eriochrome black T, a weaker chelating agent than EDTA, is red in the presence of Ca2 and turns blue when Ca2+ is removed. red blue Ca(ln)2+-EDTA → Ca(EDTA,-+ + In...
6. In an experiment, the molecular formula for calcium hydroxide was determined to be Ca(OH)2. In this experiment, 0.55 g of Ca (s) was added to 150 mL of DI water. After add- ing 10 drops of 0.1% thymol blue indicator, the solution was titrated with 0.30 M HCI. a) Write the balanced equation for the net ionic reaction that occurred during the titration. b) Calculate the volume of 0.30 M HCl required to reach the end point of the...
1. Write the balanced equation for the reaction between calcium carbonate and hydrochloric acid in water, generating aqueous calcium chloride and liberating carbon dioxide gas. (You will need this for Part 1 of the experiment!) 2. Calculate the concentration of one liter of the resulting calcium chloride solution (assuming you started with 102.7 mg of calcium carbonate) in units of molar and millimolar. Also calculate the concentration in "parts-per-million as CaCO3". (Refer to section 13.5 of your textbook, if needed.)...
2. Calculate the concentration of one liter of the resulting
calcium chloride solution (assuming you started with 102.7 mg of
calcium carbonate) in units of molar and millimolar. Also calculate
the concentration in “parts-per-million as CaCO3”. (Refer to
section 13.5 of your textbook, if needed.)
a. If a standard Ca2+ solution is 100 ppm and 50 mL of solution
is used for the standardization, calculate the approximate volume
of 2.5 mM EDTA4- solution needed to reach the end point of...
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