You have three solutions, “A”, “B” and “C”. Each must be diluted by the following dilution...
You have three solutions, “A”, “B” and “C”. Each must be diluted by the following dilution factors: 4X, 10X and 50X respectively. What would be the final volume of a solution prepared by adding each of the ingredients to 100 mL of solvent?
Homework Answers
Now for each three solutions namely A,B and C we start with 100 ml.of solution.
For A we have to do 4X that is 4 times which is 4 × 100 = 400 ml
For B similarly it is 10 X = 10 × 100 = 1000ml
For C similarly it is 50X = 50 × 100= 5000ml
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You have three solutions, “A”, “B” and “C”. Each must be diluted
by the following dilution...
You have three solutions, “A”, “B” and “C”. Each must be diluted by the following dilution...
You have three solutions, “A”, “B” and “C”. Each must be diluted by the following dilution factors: 4X, 10X and 50X respectively. What would be the final volume of a solution prepared by adding each of the ingredients to 100 mL of solvent? Answer is supposed to be 158.73mL. I'm confused how to get there. Thank you. This is all the information that is given unfortunately
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-Calulated molarity of diluted vinegar solution
-Molarity of Commercial Vinegar (multiply by the dilution
factor
-Percent (mass/volume) of acetic acid in commefcial
vinegar
Data and Calculations Molarity of standardized sodium hydroxide solution Dilution factor for vinegar solution prepared in step 4 i 20 Volume of diluted vinegar titrated in each run Titrations: Run 3 Run 2 Run 1 G (o .00 ml Final Buret 22.20 Volume (mL) Initial Buret Volume (mL) 22.20 WL Volume NaOH 22.3 Delivered (mL)...
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