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โ 14y ago1000 ppm Cl- = 1.0 gram per liter Cl- = 1.0 * [58.5 (gNaCl/mole NaCl)] / [35.5 (gCl-/mole NaCl)] = 1.65 g/L NaCl
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โ 14y agoTo prepare a 1000 ppm chloride solution from sodium chloride, first calculate the mass of sodium chloride needed using the formula: (ppm concentration * volume of solution in liters) / 1000. Then dissolve this calculated mass of sodium chloride in the desired volume of water to make the solution. Finally, ensure the solution is thoroughly mixed before testing the concentration with appropriate methods.
To prepare a 1000 ppm sodium solution from sodium chloride, first calculate the molecular weight of sodium chloride (NaCl). Then, dissolve the calculated amount of NaCl in a known volume of water to achieve a final concentration of 1000 ppm (1 mg/L). Make sure to accurately measure the mass of NaCl and volume of water to ensure the desired concentration is reached.
To prepare a 1 ppb sodium solution from a 1000 ppm sodium standard, you can dilute 1 mL of the 1000 ppm sodium standard with 999 mL (or 999 g) of solvent. This will result in a final solution with a concentration of 1 ppb, as 1 mL is equivalent to 1 mg in this case.
To prepare 0.01N sodium thiosulfate per Indian Pharmacopoeia (IP) standards, dissolve 25.3 grams of pure sodium thiosulfate pentahydrate (Na2S2O3ยท5H2O) in distilled water to make 1000 ml of solution. This solution will have a normality of 0.01N.
To find the moles of sodium chloride, we first need to calculate the moles of sodium chloride in 200 ml of a 6M solution. The volume in liters is 0.2 L (200 ml = 0.2 L). Then, using the formula moles = Molarity x Volume in liters, we have moles = 6 M x 0.2 L = 1.2 moles of sodium chloride.
To prepare a 1000 ppm potassium solution, you would dissolve 1 gram of potassium salt in 1 liter of water (1000 mL). This would give you a solution where the concentration of potassium is 1000 parts per million (ppm), which means there is 1 milligram of potassium for every kilogram of solution.
To prepare a 1000 ppm sodium solution from sodium chloride, first calculate the molecular weight of sodium chloride (NaCl). Then, dissolve the calculated amount of NaCl in a known volume of water to achieve a final concentration of 1000 ppm (1 mg/L). Make sure to accurately measure the mass of NaCl and volume of water to ensure the desired concentration is reached.
One mole solution of sodium chloride makes 1000 millimole. So 0.1 mole solution of sodium chloride will have 100 millimole in the solution.
To prepare a 0.9% sodium chloride solution, dissolve 9 grams of sodium chloride in 1000 milliliters (1 liter) of distilled water. Mix until the salt is completely dissolved. This solution is commonly known as normal saline and is used in medical settings for various purposes.
Dissolve 3,2788 g Na3PO4 in 1000 mL of this water solution.
To prepare a 1 ppb sodium solution from a 1000 ppm sodium standard, you can dilute 1 mL of the 1000 ppm sodium standard with 999 mL (or 999 g) of solvent. This will result in a final solution with a concentration of 1 ppb, as 1 mL is equivalent to 1 mg in this case.
To prepare 0.01N sodium thiosulfate per Indian Pharmacopoeia (IP) standards, dissolve 25.3 grams of pure sodium thiosulfate pentahydrate (Na2S2O3ยท5H2O) in distilled water to make 1000 ml of solution. This solution will have a normality of 0.01N.
Just take 3 grams and add this to 1000 litres (= 1,000 kg = 1,000,000 (million) grams)
To prepare a 0.0500 M sodium carbonate solution, you would need to accurately weigh out the required amount of anhydrous sodium carbonate (Na2CO3), dissolve it in a known volume of water, and then dilute to the appropriate final volume while ensuring thorough mixing to achieve homogeneity. Make sure to use appropriate glassware and techniques to maintain accuracy.
To find the moles of sodium chloride, we first need to calculate the moles of sodium chloride in 200 ml of a 6M solution. The volume in liters is 0.2 L (200 ml = 0.2 L). Then, using the formula moles = Molarity x Volume in liters, we have moles = 6 M x 0.2 L = 1.2 moles of sodium chloride.
0.9% means there is 0.9 grams NaCl per 100ml of solution. So 1000 ml of 0.9% sodium chloride contains 9.0 grams of NaCl.
To prepare a 1000 ppm potassium solution, you would dissolve 1 gram of potassium salt in 1 liter of water (1000 mL). This would give you a solution where the concentration of potassium is 1000 parts per million (ppm), which means there is 1 milligram of potassium for every kilogram of solution.
To make a 1000 ppm solution of chloride ion, you would need to dissolve 1 gram of sodium chloride (NaCl) in 1 liter of water. This concentration corresponds to 1 mg of chloride ion per 1 kg of solution.