5.8871 1. Mass NaCi (g) 100.0 2. Volume of water (mL) 51.5023 3. Mass ice (g) -2.85 Freezing point of the solution ("C) Part 1 Calculations What is the predicted value of i for Nace 5. For electrolytes, assume i = the number of ions per formula unit. Calculate the molality of the solution (m) Use the equation: T, (solution) - T (solvent) = -i K, m The freezing point of pure water is 0.00 °C K, for water is 1.86 "CIm Mass of solvent in grams Add together the masses of the liquid water 7. and ice added to the calorimeter. Convert the volume of liquid water to mass using 1.000 g/ml as the density of water (see procedure for volume used).

What is the Mass of solvent in grams?

Add together the masses of the liquid water and ice added to the calorimeter. Convert the volume of liquid water to mass using 1.000 g/mL as the density of water (see procedure for volume used).

Side note:Molarity of the solution is 

0.76612903225806

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5.8871 Mass Nacl (g) 100.0 2. Volume of water (mL) 51.5023 3. Mass ice (g) -2.85 Freezing point of the 4. solution ('C) Part 1 Calculations What is the predicted value of i for NaCi? For electrolytes, assume i = the number of ions per formula unit. // Calculate the molality of the solution (m) Use the equation: 6. T; (solution) - T; (solvent) = -i K, m The freezing point of pure water is 0.00 C K, for water is 1.86 "C/m // Mass of solvent in grams Add together the masses of the liquid water and ice added to the calorimeter. Convert the volume of liquid water to mass using 1.000 g/ml as the density of water (see procedure for volume used).