Using the molecular weights and densities, calculate the volumes required to prepare a 50ml 1:1 molar...
How many moles of benzaldehyde (density d = 1.04 g/ml), (molecular weight mw = 106.12 g/mol) are required to react with 1.0 ml of acetone: (density d = 0.79 g/ml), (molecular weight mw = 58.08 g/mol)? 6. What is approximate theoretical yield for problem # 5 if you obtained 2.1 grams of dibenzylidene acetone (mw = 234.29 g/mol)?
1) Calculate the freezing point (°C) of a solution of 50 mL of acetone (CH3COCH3, Molar Mass = 58.08 g/mol, density 0.784 g/cm3) in 150g of CCl4, whose normal freezing point is -23.0 °C. Given: P = 1 atm, Kf CCl4 = 29.8 °C/m. Please show work. ------------------------------------------------------------------------------------------- 2) Calculate the boiling point (°C) at P = 1 atm of a solution of 25 g of acetone in 100 g of camphor whose normal boiling point is 204 °C. Kb...
"calculations only" 1. How would you prepare a 25% m/m NaOH solution in methanol (CH3OH m.m =0.79 g/cm3). 2. How would you prepare a solution of 0.10 mole fraction of glucose (C6H12O6 ) in water? 3. Calculate the molarity and mole fraction of acetone in a 1.00 m solution of acetone (C3H6O) in ethanol (C2H6O). Density of acetone= 0.788 g/mL; Density of ethanol 0.789 g/mL. Assume volumes are additive.
Find the densities with error:
Calculate the volumes, V, and V2, and densities, ρ, and f, required in the tables below. You need to determine the correct uncertainty, e.g. AL, for each instrument. Check with your instructor. Also, read the Introduction in this experimental procedure. Cylinder 1 (the reddish-orange-colored one)5 Mass: (The uncertainty in the mass is ½ the smallest division on the scale; see the text.) et Ruler Vernier Caliper Micrometer Measurement 5.05측 Length, L (cm) Uncertainty in L,...
Indicate the appropriate protocol below to prepare the required solution A) Solution 1 Preparation: Prepare: 1 liter of 2 Molar Tris From: solid Tris, MW = 121.1 g/mol Procedure: B) Solution 2 Preparation: Prepare: 1 liter of 0.01 mg/mL ascorbic acid From: solid ascorbic acid , MW = 176.1 g/mol Procedure: C) Solution 3 Preparation: Prepare: 1 liter of 100 mM Tris From: 1 Molar Tris stock solution Procedure: D) Solution 4 Preparation: Prepare: 1 liter of 50 mM CaCl2...
The partial molar volumes of water and ethanol in a solution with xH2O = 0.45 at 25 ∘C are 17.0 and 57.5 cm3 mol−1, respectively. Calculate the volume change upon mixing sufficient ethanol with 6.18 mol of water to give this concentration. The densities of water and ethanol are 0.997 and 0.7893 g cm−3, respectively, at this temperature.
Please refer to the Aldol Condensation experiment in your lab manual (page 89) • Calculate the amounts of all chemicals needed in measurable amounts (i.e. grams or milliliters rather than moles.) • Determine the theoretical yield for the reaction. Mixture A: Prepare a solution of 5g of sodium hydroxide dissolved in Du and 40ml of ethanol at room temperature in a 250 ml Erlenmeyer flask. Mixture B: Mix 5.1 ml(5.31 g) of benzaldehyde (MW 106 g/mol; d = 1.04 g/ml)...
PROCEDURE 1. Prepare three 100 mL beakers for this experiment. Use the molecular weights on the bottles to calculate the amount of solid to use. a. *b. Prepare 25 mL of a 10 M NaOH solution (concentrated NaOH solution). Calculate the amount of solid NaOH needed to make. *c. Prepare 50 mL of a 20 mM histidine solution (calculate the amount of solid histidine needed to make it, m.w. 209.6 g/mol). In the fume hood, add 3 drops of concentrated...
The molar mass of unknown molecular compound is determined using freezing point depression. The substance is dissolved in benzene (C6H), an organic solvent. Use the data below to determine the molar mass of the substance. 8.65 g Mass of unknown compound Freezing point of solution Volume of benzene -10.21°C 35.0 mL 5.53°C Freezing point of benzene Density of benzene Kf for benzene 0.8765 g/mL 5.12°C/m Molar mass = g/mol
1.Calculate the mass of malonic acid (C3H4O4, MW 104.07 g/mol) required to prepare 50.00mL of a 0.15 M malonic acid solution. 2. Calculate the mass of manganese sulfate monohydrate (MnSO4*H2O, MW 169.01 g/mol) required to prepare 50.00mL of a 0.020 M manganese sulfate solution 3. Calculate the mass of potassium iodate (KIO3,MW 213.99 g/mol) required to prepare 50.00mL of a 0.20 M potassium iodate solution. 4. Calculate the volume of 1.0 M sulfuric acid (H2SO4) required to prepare 100.00mL of...