Review To join clicker to class today: – Turn on the Clicker (the red LED comes on). – Push “Join” button followed by “20” followed by the “Send” button.

Slides:

Advertisements

Similar presentations

Colligative Properties of Nonelectrolytes. Colligative Properties Changes in colligative properties depend only on the number of solute particles present,

Advertisements

Chapter 13- Unit 2 Colligative Properties - are properties of solutions that depend on the number of molecules in a given volume of solvent and not on.

© 2009, Prentice-Hall, Inc. Colligative Properties Changes in colligative properties depend only on the number of solute particles present, not on the.

Physical Properties of Solutions Chapter 12 Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.

Molecular Mass by Freezing Point Depression Background Vapor Pressure  The melting and freezing points for a substance are determined by the vapor pressure.

Colligative Properties. How does the solute change the properties of the solvent? Consider aqueous solutions. Solvent = water. How do the properties of.

Colligative Properties Honors Chemistry Unit 8 Chapter 15.

Colligative Properties (solutions)

Physical Properties of Solutions

Physical Properties of Solutions

1 Physical Properties of Solutions Chapter 12 Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.

Solutions... the components of a mixture are uniformly intermingled (the mixture is homogeneous).

A.P. Chemistry Chapter Solution Composition Solute- substance which is dissolved Solvent- substance that is doing the dissolving Molarity (M)-

Physical Properties of Solutions.  Homogeneous mixtures: ◦ Solutions – ions or molecules (small particles) ◦ Colloids – larger particles but still uniform.

Colligative Properties. Properties that depend upon the concentration of solute particles are called colligative properties. Generally these properties.

13.7 Osmotic Pressure –Osmosis, osmotic pressure calculations including molar mass determination, colligative properties, practical applications (red blood.

Prentice Hall ©2004 CHAPTER 11 SOLUTIONS AND THEIR PROPERTIES Chapter 11Slide 1.

Changing Molarity to Molality

1 Ch. 7: Solutions Chem. 20 El Camino College. 2 Terminology The solute is dissolved in the solvent. The solute is usually in smaller amount, and the.

Chapter 11 Properties of solutions. Solutions A solution is a homogenous mixture. The solvent does the dissolving. The solute is dissolved by the solvent.

Change in Freezing Point Common Applications of Freezing Point Depression Propylene glycol Ethylene glycol – deadly to small animals.

1 Colligative Properties of Solutions Colligative properties are properties that depend only on the number of solute particles in solution and not on the.

Concentration Units Continued M = moles of solute liters of solution Molarity (M) Molality (m) m = moles of solute mass of solvent (kg) 12.3.

Chapter 9 Solution Concentrations and Colligative Properties.

COLLIGATIVE PROPERTIES STRUCTURE MEETS FUNCTION: WHAT PROPERTIES DO SOLUTIONS HAVE AND WHY?

II III I IV. Colligative Properties of Solutions (p. 498 – 504) Ch. 14 – Mixtures & Solutions.

Colligative Properties. Colligative properties –

Colligative Properties. _______________ – physical properties of solutions that are affected only by the number of particles NOT the identity of the solute.

Solutions Mass Percentage Mass % of A = mass of A in solution total mass of solution  100.

Solutions --don’t worry—we’ll have problems to go with them.

Chapter 13 Section 5: Colligative Properties

Colligative Properties. Colligative properties Properties that depend on the TOTAL number of dissolved particles.

Colligative Properties

Chapter 14 Ions in Aqueous Solutions & Colligative Properties.

Solutions Homogeneous mixtures containing two or more substances. –Solvent- The substance that dissolves –Solute- The substance being dissolved.

Copyright©2000 by Houghton Mifflin Company. All rights reserved. 1 Solutions... the components of a mixture are uniformly intermingled (the mixture is.

Colligative Properties of Solutions

Solutions (Chapter 12) The Solution Process Why do things dissolve? -- driving force toward more random state (entropy) -- attractive forces between solute.

1 Colligative Properties of Solutions. 2 Colligative Properties Colligative properties are physical properties of solutions that change when adding a.

Ions in Aqueous Solutions and Colligative Properties.

Colligative Properties

Colligative Properties Chemistry GT 5/11/15. Drill List the four colligative properties. Give a real world example of each. What is the molality of a.

Colligative Properties

Announcements To join clicker to class today: – Turn on the Clicker (the red LED comes on). – Push “Join” button followed by “20” followed by the “Send”

Colligative Properties. ____________ – physical properties of solutions that are affected only by the number of particles NOT the identity of the solute.

Molarity and Colligative Properties Chemistry GT 5/8/15.

Colligative Properties

Physical Properties of Solutions Chapter 12. Objectives 1.0 Define key terms and concepts. 1.8 Explain how a solute and solvent interact to make a solution.

© 2009, Prentice-Hall, Inc. Colligative Properties Changes in colligative properties depend only on the number of solute particles present, not on the.

POINT > Define colligative properties POINT > Describe how solutes affect the equilibrium vapor pressure of a solution POINT > Describe boiling point.

Colligative Properties of Solutions Ch Definition of Colligative Properties The physical properties of solutions that are affected by the number.

Chapter 11 Properties of Solutions. Copyright © Cengage Learning. All rights reserved 2 Solution – a homogeneous mixture. Solute – substance being dissolved.

Physical Properties of Solutions Chapter 12 Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.

CHAPTER 12: Concentration Terms for Solutions Concentration = Amount solute/amount solvent Some Concentration Terms are Temperature Sensitive.

Solutions-3 Colligative Properties. When a solute is added to a solvent, particles get in the way of crystal formation. Freezing requires lower temperature.

Solutions... the components of a mixture are uniformly intermingled (the mixture is homogeneous).

11.4 Colligative Properties

Colligative Properties

Colligative Properties

Colligative Properties

Vapor Pressures of Solutions

Solutions Chapter 10.

Colligative Properties of Solutions

Physical Properties of Solutions

Lesson 6.1: Solutions and Concentration

Colligative Properties of Solutions

Chapter 13 Section 5: Colligative Properties

13.2 Colligative Properties of Solutions

Chapter 13 Solutions.

Presentation transcript:

Review To join clicker to class today: – Turn on the Clicker (the red LED comes on). – Push “Join” button followed by “20” followed by the “Send” button (switches to flashing green LED if successful). ● Water solutions of non-electrolytes (molecular compounds) do not conduct electricity. ● Colligative properties. ● Example 1: Osmosis − Osmotic pressure ∏= MRT − Calculated pressure of 0.50 M sugar relative to DI water. ∏=(0.50 mol/L)( atmLmol -1 K -1 )(298 K) = 12. atm (1.2 x 10 1 atm) Conversion between molarity and (mass solute)/(mass sol'n). ● Water solutions of electrolytes conduct electricity.

Boiling Point Elevation Solute in a liquid lowers the rate at which molecules can enter the gas phase by sticking to solvent molecules or blocking access to surface, raising the boiling point. The observed effect is again proportional to the solute particle concentration: ∆T b = imK b. –i = the van’t Hoff factor –m = molality = (moles solute/kg solvent) –K b = the boiling point elevation constant which depends on the identity of the solvent.

Molality (m) Molality = (moles solute)/(kg of solvent) NOTE DENOMINATOR IS NOT kg of solution! Ex moles NaCl in 2.0 kg water. m = 0.50 moles NaCl/(2.0 kg solvent) = 0.25 m NaCl in water. Compare with molarity (M). What is the molality of 2.00 M NaCl in water ? –assume solution density =1.03 g/mL=>1.03 kg sol’n/L sol’n, –MM(NaCl) = g/mole

Boiling Point Elevation Calculation. Relation: ∆T b = imK b Ex. How much higher is Bp of m NaCl than pure water? –K b (H 2 O) = K or ˚C/m –Assume i = ?

Freezing Point Depression Same idea as Bp elevation except that solute gets in the way of solid formation and lowers the freezing point. Observed relation is: ∆T f = imK f –Note that K f is usually reported as positive –∆T comes out positive. –You must subtract a positive ∆T from the freezing point of the pure solvent since the freezing point drops. ● Other types of calculations you could do. −How much CaCl 2 do you need in some amount of water to drop the freezing point 10 ˚C? −What morality CaCl 2 sol'n is necessary? −Account for the van't Hoff factor.