trial #a It was 64.8 Determine the molality of each unknown solution, using Kr = 4.50 °C/m for stearic acid.

I need help solving molality and determining molar mass

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ft Data Solution Observations Pure Solvent Time Time (minutes: Temp Observations seconds) (°C) (minutes: seconds) Temp (°C) 0 40 76.1 0 0:15 0:30 80 76.9 0:15 0:30 73.6 72.1 0:45 70.6 0:45 10.7 0:60 10.0 0:60 68.4 1:15 69.7 solid 1:15 67.7 solid b 1:30 69.4 1:30 66.7 1:45 169.1 1:45 66.0 2:00 169.1 2:00 65.4 2:15 169.1 2:15 64.9 2:30 69.0 2:30 65.0 2:45 69.0 2:45 64.8 3:00 69.0 3:00 64.6 3:15 690 3:15 164.8 3:30 69.0 3:30 64.6 3:45 690 3:45 64.4 4:00 69.0 4:00 164.4 4:15 690 4:15 104.2 4:30 69.0 4:30 164.1 4:45 69.0 4:45 64.2 5:00 69.0 5:00 64.2 5:15 69.0 5:15 164.1 5:30 690 5:30 64.1 5:45 69.0 5:45 164.2 6:00 69.0 6:00 164.3 6:15 69.0 6:15 6:30 69.0 6:30 65.0 6:45 69.0 6:45 165.0 7:00 (૦૧ ૦ 7:00 64.9 7:15 690 7:15 64.8 7:30 69.0 7:30 64.7 7:45 690 14.6 7:45 8:00 69-01 64.4 8:00 Continue recording data until it is so frozen it can no longer be stirred. You may need more than 8 minutes! 11) 68.5 cooled Mass of test tube 13.84 Mass of test tube + stearic acid 19.94 Mass of unknown solute added for Trial #1 0.526 Mass of unknown solute added for Trial #2.909 Total mass of solute in Trial #2435 Trial #1 .كما 164.8 65.0 64.7 64.7 64.4 64.4 64.3 64.2 (04.0 64.0 64.0 63.8 (03.7 623.6 63.4 to Mana Temp (°C) 80 13.1 70.4 68.0 67.0 65.9 65.3 65.0 64.9 64.9 64.8 64. solid bo 64.7 64.9 63.2 63.0 300م) Trial #2 Observations Analysis From your cooling curve data, what is the freezing point of pure stearic acid? The dog freezing point for the acid was 69.7°C steanc Based on your best fit line analysis, what is the freezing point of each unknown solution? (Attach graph of cooling curve data for both trials) The cooling point for trial #1 was 67.7. For trial #2 It was 64.8 Determine the molality of each unknown solution, using Kf = 4.50 °C/m for stearic acid. Determine the molar mass of the unknown solute. (It is a non-electrolyte.) Show your work for both trials. Compare your average molar mass to the accepted value for the molar mass of the solute (it is BHT, butylated hydroxytoluene) and discuss the main sources of error. Based on the molecular structures of stearic acid and BHT, does it make sense that BHT would dissolve in stearic acid? Why is BHT a non-electrolyte?