Molar mass of HF=20.01g/mol
Mole=17/20.01=0.85 mole hf
Concentration= mole/volume in litre
Volume=0.2 litre
Concentration=0.85/0.2= 4.2 M
Answer C
A 17.0-g sample of HF is dissolved in water to give 200. mL of solution. The...
1. A l64-g sample of HF is dissolved in water to give 2.0 x 10' ml of solution. The concentration of solution is: A) 0.82 M B) 0.16 M C) 0.08 M D) 4.1 M E) 8.2 M 2. You have 75.0 mL of a 2.50 M solution of Na,CrO(ag). You also have 125 mL of a 2.01 M solution of AgNOs(ag), Calculate the concentration of Cro. after the two solutions are mixed together. A) 0.00 M B) 0.309 M...
Question 2 2.5 pts A 14.2-g sample of HF is dissolved in water to give 2.0 x 102 mL of solution. The concentration of the solution is: 7.1 M 3.5 M 0.14 M 0.71 M 0.07 M Question 3 2.5 pts
A 1.04 g sample of KBr is dissolved in water to give 155 mL of
solution. This solution is then added to 165 mL of 0.015 M aqueous
Pb(NO3)2, in an attempt to remove the toxic lead(II) ions from the
solution via precipitation as insoluble PbBr2(s).
The precipitation reaction that occurs is: Pb2+ (aq) + 2 Br (aq)
---> PbBr2 (s)
At the end of the reaction, what is the concentration (in
molarity) of nitrate ions in the solution?
Note:...
The
molar mass of hydrogen fluoride, HF, is 20.00 g/mol. If 17.0 grams
of HF are dissolved in water to give 200.0 mL solution, what is the
molaroty of this solution?
A 1.04 g sample of KBr is dissolved in water to give 155 mL of solution. This solution is then added to 165 mL of 0.015 M aqueous Pb(NO3)2, in an attempt to remove the toxic lead(II) ions from the solution via precipitation as insoluble PbBr2(s). The precipitation reaction that occurs is: PB2+(aq) + 2Br(aq) --> PbBr2(s) What is the maximum mass of product that could be isolated by filtration after the reaction occurs?
REVIEW&CHECK FOR SECTION 4-5 1. A 1.71-g sample of Ba(OH)2(s) was dissolved in water to give 250 mL of solution. What is the OH concentration in this solution? (a) 0.010 M (b) 0.040 M (c) 0.080 M (d) 0.10 M 2. You have a 100.-mL volumetric flask containing 0.050 M HCI. A 2.0-mL sample of this solution was diluted to 10.0 mL. What is the concentration of HCl in the dilute solution? (a) 0.10 M (b) 0.010 M (c) 1.0...
A 4.691 g sample of MgCl2 (95.21 g/mol) is dissolved in enough water to give 750.0 mL of solution. What is the chloride (35.45 g/mol) ion concentration (in molarity) in this solution?
A 6.04 g sample of a solid containing Ni is dissolved in 20.0 mL water. A 5.00 mL aliquot of this solution is diluted to 100.0 mL and analyzed in the lab. The analyzed solution was determined to contain 6.88 ppm Ni . Determine the molar concentration of Ni in the 20.0 mL solution. *concentration= ? M Determine the mass, in grams, of Ni in the original sample. *mass= ? g Determine the weight percent of Ni in the sample....
1.)A 1.998-g sample containing Cl' and CIO," was dissolved in sufficient water to give 250.0 mL of solution. A 50.00-ml aliquot required 13.97 mL of 0.08551 M AgNO3 to titrate the CI'. A second 50.00-ml aliquot was treated with V2(SO4)3 to reduce the CIOA to Cl": CIO:+4V2(SO)) + 4H20 C1 + 1250,2 +8VO2 + 8H Titration of the reduced sample required 40.12 mL of the AgNO, solution. Calculate the percentages of Cl' and CIO, in the sample.
References A 2.00 g sample of KCI is dissolved in 65.0 mL. of water. The resulting solution is then added to 15.0 mL. of a 0.430 M CaCl, (aq) solution. Assuming that the volumes are additive, calculate the concentrations of each ion present in the final solution. Concentration of K ions M Concentration of Ca ions Concentration of CI ions M Submit Answer Try Another Version 6 item attempts remaining