QUESTION 15
The % concentration by mass of a solution prepared by dissolving 23.0 g of NaBr in 375 g of solution is:
6.13% |
||
11.6% |
||
16.3% |
||
8.63% |
We need at least 10 more requests to produce the answer.
0 / 10 have requested this problem solution
The more requests, the faster the answer.
QUESTION 15 The % concentration by mass of a solution prepared by dissolving 23.0 g of...
Question 10 The % concentration by mass of a solution prepared by dissolving 9.44 g of KF in 85.3 g of solution is: Selected Answer: 11.1% Correct Answer: 11.1% Response Feedback: Correct! Question 11 Select the amount of NaBr, in grams, needed to prepare 325. grams of a 3.62% by mass NaBr solution: Selected Answer: 3.25 grams Correct Answer: 11.8 grams Response Feedback: Incorrect! Percent by mass is the grams of solute dissolved per 100 g of solution: [C# grams...
What is the concentration, in mass percent (m/m), of a solution prepared from 23.0 g NaCl and 178.0 g of water? 0.129 % (m/m) 12.9 % (m/m) 77.3 % (m/m) 11.4 % (m/m) 88.6 % (m/m)
0. 000 45) The concentration of urea in a solution prepared by dissolving 16 g of urea in 20 g of H2O is _% by mass. The molar mass of urea is 60.0 g/mol. A) 0.48 B) 0.44 C) 80 D) 0.80 E) 44 46) The concentration of a benzene solution prepared by mixing 11.0 g C6H6 with 38.0 g CCl4 is molal. A) 2.40 B) 3.71 C) 0.622 D) 0.508 E) 0.289 47) The mole fraction of He in...
A solution is prepared by dissolving 50.2 g sucrose (C12H22O11) in 0.383 kg of water. The final volume of the solution is 355 mL. (Molarity=0.413, Molality=0.383, and percent by mass is 11.6%) For this solution, calculate mole fraction.
Question 1 5 pts A solution is prepared by dissolving 35.35 g ethanol (C2H5OH; Molar mass = 46.08 g/mol) in 42.2 g water. What is the molality (mol/kg) of C2H5OH in the solution? 4361 m 4.36 m 0.767 m 18.2 m 0.0182 m Question 2 5 pts Which observation correctly reflects colligative property? A KOH solution has a high vapor pressure than pure water Adding NaCl to ice will increase its melting point. A 0.5 m NaOH solution boils at...
A solution of F− is prepared by dissolving 0.0887±0.0006 g NaF (molar mass = 41.989±0.001 g/mol) in 152.00±0.09 mL of water. Calculate the concentration of F− in solution and its absolute uncertainty.
What is the molality of a solution prepared by dissolving 15.25g of NaBr in 350 g of water?
Determine the molality of a solution prepared by dissolving 1.00 moles of CaBr2 in 23.0 moles H2O.
A solution of F− is prepared by dissolving 0.0744±0.0005 g NaF (molar mass = 41.989±0.001 g/mol) in 157.00±0.07 mL of water. Calculate the concentration of F− in solution and its absolute uncertainty.
A standard stock solution of Cr6+ was prepared by dissolving 0.507 g dried K2CrO4 (formular mass=194.1896 g/mol) in deionized water and diluting to 100 mL in a volumetric flask. What is the concentration of the standard solution in units of g Cr/L? The molar mass of chromium is 51.9961 g/mol.