Unit 1 Lecture 4: Solute/Solvent Interactions

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Presentation transcript:

Unit 1 Lecture 4: Solute/Solvent Interactions The student is able to draw and/or interpret representations of solutions that show the interactions between the solute and solvent.

Mixtures A physical blend of two or more pure substances in any proportion each substance retains its individual properties can be separated by physical means.

Two Type of Mixtures Heterogeneous – species retain their individual properties and do not mix smoothly throughout Suspensions – have large particles that if left undisturbed will settle out (muddy water, paint) Colloids – have very small particles that do not settle out (milk, blood) Homogeneous – solution where solutes completely dissolve into a solvent and individual species are indistinguishable. Solutions - Can exist in the solid, liquid or gaseous phase depending on the state of the solvent

Solution Examples Air – O2, N2, H2O, CO2 Ethanol and Water Solid solutions: dental fillings, 14K gold, sterling silver Liquid solutions: saline, vinegar, sugar water Gas solutions: the atmosphere, anesthesia gases

Solvent Substance that dissolves a solute to form a solution; most plentiful chemical species in the solution

Solute One or more chemical species dissolved in a solution.

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Elevation Boiling Point Boiling occurs when the pressure of the evaporating solution is equal to atmospheric pressure. Solvent particles interact with the solute particles causing fewer solvent particles from escaping the solution. More energy is needed to cause the solution to boil. https://www.youtube.com/watch?v=Jo4ocC1r5-Y

Freezing Point Depression Freezing occurs when solvent particles arrange and organize themselves in an ordered solid. Solute particles get in the way of solvent particles preventing the solution from freezing. Colder temperatures are required to cause the solution to freeze. https://www.youtube.com/watch?v=06Buf6N2Yp4