The total hardness of a water sample is 200 mg/L as CaCO3. If the alkalinity is...

Determine the total hardness, carbonate hardness, and noncarbonate hardness in mg/L CaCO3 for this water sample....

Determine the total hardness, carbonate hardness, and noncarbonate hardness in mg/L CaCO3 for this water sample. Answers should be whole numbers (no decimals). Constituent Conc. (mg/L) MW (g/mol) Ca2+ 27.2 40.0 Mg2+ 31.6 24.3 HCO3- 256.2 61.0 Total Hardness:  mg/L CaCO3 Carbonate Hardness:   mg/L CaCO3 Noncarbonate Hardness:   mg/L CaCO3

A water has an alkalinity of 200 mg/L as CaCO3. The Ca2+ concentration is 160 mg/L...

A water has an alkalinity of 200 mg/L as CaCO3. The Ca2+ concentration is 160 mg/L as the ion and the Mg2+ concentration is 40 mg/L as the ion. The pH is 8.1. Find the total carbonate and noncarbonate hardness

A water sample has an alkalinity of 135 mg/L as CaCO3 and a pH of 8.8....

A water sample has an alkalinity of 135 mg/L as CaCO3 and a pH of 8.8. Determine the concentrations [mg/L] of HCO3-, CO3-2 and OH-.

Determine the total hardness, temporary hardness and permanent hardness in mg/L as CaCO3 for the following...

Determine the total hardness, temporary hardness and permanent hardness in mg/L as CaCO3 for the following water. The ion concentrations reported below (a partial ion analysis). The pH of the water is 7.8. (Atomic mass (g/mol) of Mg-24.3, Ca-40.1, Na-23, C-12, S-32, O-16, H-1) (15 points) Ca2+ = 96.25 mg/L ; Mg2+ = 14.6 mg/L ; Na+ = 20.7 mg/L ; HCO3- = 219.6 mg/L ; SO42- = 19.22 mg/L;

Following table shows the chemical analysis results of a sample of water. Calculate the following. Give...

Following table shows the chemical analysis results of a sample of water. Calculate the following. Give answers in the unit of mg/L of CaCO3. (Hint: Chapter 10, Section 10.2.1) (a) Total Hardness of the water. (b) Alkalinity of the water. (c) Carbonate and Non-carbonate Hardness of the water. Component Concentration (mg/L) Component Concentration (mg/L) Ca2+ 15 HCO3‒ 165 Mg2+ 10 SO42‒ 10 Sr2+ 2 Cl‒ 6 Na+ 20 NO3‒ 3 K+ 10 pH 7.1

The alkalinity of a water consists of 12 mg/L of CO32- and 100 mg/L HCO3-. Calculate...

The alkalinity of a water consists of 12 mg/L of CO32- and 100 mg/L HCO3-. Calculate the alkalinity in mg/L as CaCO3 by Ignoring [OH-] and [H+].

Calculate the value for total water hardness (amount of Ca + Mg). This will be reported...

Calculate the value for total water hardness (amount of Ca + Mg). This will be reported in terms of CaCO3 in mg/L. The moles of (Ca+Mg) is equal to the moles of EDTA used in the titration. Multiply the molarity of the EDTA by the volume in L of EDTA used to get the moles. Then convert the moles to mass using the molar mass of CaCO3. Finally convert your answer to mg and divide by the total volume in...

A water sample contains 150 mg/L of Calcium, 50 mg/L of magnesium, and 11 mg/L of...

A water sample contains 150 mg/L of Calcium, 50 mg/L of magnesium, and 11 mg/L of iron. What is the total hardness? Choices: A) 150 mg/L B) 6 meq/L C) 600 mg/L as CaCO3 D) 405 mg/L as CaCO3

100 million gallon per day of water of pH 8 and alkalinity (HCO3-) of 200 mg/L...

100 million gallon per day of water of pH 8 and alkalinity (HCO3-) of 200 mg/L as CaCO3. If it is required to lower the pH from 8 to 7 by using 1 g/L of HCl stock solution, then how much HCl is required (gallon/day) while considering the above mentioned alkalinity?

What is the alkalinity, in terms of calcium carbonate, of a water with 80 mg/L bicarbonate...

What is the alkalinity, in terms of calcium carbonate, of a water with 80 mg/L bicarbonate and 5 mg/L of carbonate at a pH of 9?