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2.) In lecture, the derivation of the activity based on the freezing point depression of a...
just 2-9 please
Pre-Lab Questions: Freezing Point Depression Name Lab Section Read the description of the experiment. Make sure you understand it before you go any further 1. Graph the following data (use graph paper and a ruler). You can get graph paper from the lab, or print it from a web site. Draw best-fitnes really best fit curves). They will be similar in shape to these shown on the graph in the "Background" section. Use different colors to draw...
1h. A certain pure solvent freezes at 39.8°C and has a freezing point depression constant Kf = 0.777°C/m. What is the predicted freezing point (in °C) of a solution made from this solvent that is (1.90x10^0) m in a non-electrolyte solute? 1i. When (8.23x10^1) g of a non-electrolyte is dissolved in (5.2600x10^2) g of a solvent (with Kb = 0.416°C/m) the boiling point of the solution is 1.50°C higher than the boiling point of the pure solvent. What is the...
Determination of Molar Mass by freezing Point depression
Not sure how to answer these two questions
Calcium chloride, CaCI_2 is commonly used as road salt. If one mole of CaCI_2 is dissolved in 1 kg v of water, would the freezing point of the solution be greater than, less than, or the same as a solution prepared by dissolving one mole of table sugar (sucrose, C_12H_22O_11) in 1 kg of water? Explain your answer. A student followed our lab procedure...
Pre-Lab Questions: Freezing Point Depression Name ________________ Lab Section __________ Read the description of the experiment. Make sure you understand it before you go any further. 1. Graph the following data (use graph paper and a ruler). You can get graph paper from the lab, or print it from a web site. Draw best-fit lines (really best fit curves).They will be similar in shape to these shown on the graph in the "Background" section. Use different colors to draw data...
Post-Lab Material Experiment 19 Data and Calculations: Molar Mass Determination by Depression of the Freezing Point 0.3 Name Section A. Measured Freezing Point of Pure Water B. Finding the Freezing Point of a Solution of Liquid Unknown Target mass of solute (Calculated based on the parameters in the instructions) Unknown # Liquid 3.5 Actual mass of solute used Trial Freezing point of solution (observed) -3.0 Mass of solution 116.6 Trial II Freezing point of solution -3.3 Mass of solution 101.3....
Need help with freezing point depression expeiment volume of acetic acid 30 volume of unknown solute in solution1 1.5 volume of unknown solute in solution 2 1.5 freezing point of pure acetic acid 16.3 freezing point of solution 1 14.5 freezing point of solution 2 11.3 average molar mass of unknown solute Calculations for Part 1 The density of acetic acid is 1.049 g/mL and Kf(acetic acid) =3.90 °C·kg/mol The density of the unknown is 0.791 g/mL. 1.Calculate the masses...
A Review Constants Periodic Table The changes in boiling point (AT) or freezing point (AT) in degrees Celsius from a pure solvent can be determined from the equations given here, respectively: AT) = m x K = moles of solute XK K. kilograms of solvent Since pure water boils at 100.00 °C, and since the addition of solute increases boiling point, the boiling point of an aqueous solution, Th, will be T - (100.00+AT) 'C Since pure water freezes at...
Enter your answer in the provided box. The formula that governs the depression of freezing point and elevation of boiling point for a solution consisting of a solute dissolved in a solvent is: where:AT = the temperature change between a pure solvent and its solution i = the number of species per mole of solute that are dissolved in the solvent (e.g., i = 1 for a non-ionic solute that does not break apart into ions, i = 2 for...
Enter your answer in the provided box. The formula that governs the depression of freezing point and elevation of boiling point for a solution consisting of a solute dissolved in a solvent is: AT = i x kb x m where: AT = the temperature change between a pure solvent and its solution i = the number of species per mole of solute that are dissolved in the solvent (e.g., i = 1 for a nonionic solute that does not...
Only number 3.
Water IN LAB QUESTIONs: What is the actual freezing point depression of your anti-freeze? Therefore, what is the experimental van't Hoff factor of your solute? How much would it cost to make 2 L of your anti-freeze? POST LAB QUESTIONS 2. Using the knowledge you have gained, determine which of the above solutes would make the best anti-freeze. The best anti-freeze will be a soluble solution, which gives a 20 degree change in freezing point (use experimental...