In an experiment, 25.00 g of unknown non-electrolyte is diss…
In an experiment, 25.00 g of unknown non-electrolyte is dissolved into 350 mL of pure water and the solution has a new boiling point of 103.75o Determine the molar mass of the compound if the Kb of water is 0.512oC/m. (The density of water is 1.00 g/mL).
Read DetailsDetermine the ΔHorxn for this reaction at 25 °C using the in…
Determine the ΔHorxn for this reaction at 25 °C using the information given below: 2H2S (g) + 3O2 (g) → 2H2O (l) + 2SO2 (g) Substance ∆Hoformation (kJ/mol) SO2 (g) -296.8 H2O (g) -241.8 H2O (l) -285.8 H2S (g) -20.6 H2S (aq) -39.4
Read DetailsIn an experiment, 20.00 g of unknown non-electrolyte is diss…
In an experiment, 20.00 g of unknown non-electrolyte is dissolved into 250 mL of pure water and the solution has a new boiling point of 102.75o Determine the molar mass of the compound if the Kb of water is 0.512oC/m. (The density of water is 1.00 g/mL).
Read DetailsUse the molecules below to answer the questions that follow….
Use the molecules below to answer the questions that follow. Make sure all your work is shown and is neat and organized to receive credit. 1.Choose the molecule(s) above that would be miscible/soluble in water. (1 point) 2. List all the intermolecular forces present between each solute(s) you chose in question 1 with water and circle the strongest intermolecular force. (1 point) 3. Draw and label the strongest intermolecular force(s) from question 2. Make sure you include at least two solute molecules and three water molecules. (2 points) 4. Explain in two to three sentences why the selected molecule is miscible/soluble with water. Include clear reasoning using your knowledge of chemistry. (1 point)
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