Behavior of Molecules in Solution. The state a substance is in at a particular temperature and pressure depends on two factors Kinetic Energy of the Particles.

Slides:

Advertisements

Similar presentations

Solutions. Review of Properties of Water Is a polar molecule Has extensive hydrogen bonding Many of water’s unusual properties are due to hydrogen bonding.

Advertisements

Concentration Amount of solute per solvent Different measurements exist of this “dilute” vs. “concentrated”

Ions in aqueous Solutions And Colligative Properties

SOLUTIONS Chapter 15. What are solutions?  Homogeneous mixtures containing two or more substances called the solute and the solvent  Solute- is the.

Starter S-161 Define A.Saturated solution B.Miscible C.Supersaturated solution.

Hydrogen bonding… (a) occurs only between water molecules (b) is stronger than covalent bonding (c) can occur between NH 3 and H 2 O (d) results from strong.

Molarity  Molarity = grams / molar mass / Liters  Liters = grams / molar mass/ Molarity  Grams = Molarity x Liters x molar mass.

Intermolecular Forces a.k.a. van der Waal’s Forces O ++ -- H H O ++ -- H H Intermolecular Intramolecular.

Solutions & Solubility Factors Affecting Solubility.

SOLUTIONS A mixture worth getting your hands wet in.

Solutions Ask a chemist, they always have. Definitions  Mixture: several pure substances mixed together in an indefinite ratio Homogeneous Homogeneous.

Solutions/ Concentrations

Solution Concentration Section 14.2 Concentration - amount of solute dissolved in a specific amount of solvent concentrated - a lot of solute dilute.

Dilute vs. Concentrated Concentrated solutions Concentrated solutions contain a high amount of solute. Diluted solutions Diluted solutions contain a low.

Starter S-160 Define A.Saturated solution B.Miscible C.Supersaturated solution.

Solutions. Definitions n A solution is a homogeneous mixture n Solvent is the liquid in which the solute is dissolved n an aqueous solution has water.

Solutions Concentrations of Solutions. Solutions  Objectives  Given the mass of solute and volume of solvent, calculate the concentration of solution.

Concentration Units: Terms like “dilute” and “concentrated” are not specific. Percent by Mass: Mass % = mass of solute x 100 Total mass of solution Recall:

Behavior of Molecules in Solution. The state a substance is in at a particular temperature and pressure depends on two factors Kinetic Energy of the Particles.

III. Molarity Topic 9 The Mole. A. Molarity Concentration of a solution. total combined volume substance being dissolved.

Ch Concentration of a Solution The concentration of a solution is a measure of the amount of solute in a given amount of solvent or solution. Chemists.

Solutions Chapter 13 & 14. Solution  A uniform mixture that may contain solids, liquids, or gases  Also called a homogeneous mixture  Composed of a.

Solutions and Mixtures Aqueous Solutions pg. 292 Something is dissolved in water…the something can vary. When compounds dissolve in water, it means that.

Solutions Chapter 14.

Water and Its Solutions

SOLUTIONS Chapter 13 and 14.

CHAPTER 16 Solutions & Colligative Properties. Solutions Particles less than 1 nm in size. Homogeneous mixtures Particles do not settle and cannot be.

READING FOR TUESDAY: Chapter 12 sections 3 – 5 READING FOR TUESDAY: Chapter 12 sections 3 – 5 HOMEWORK – DUE THURSDAY 11/19/15 HOMEWORK – DUE THURSDAY.

Physical Science Mrs. Baker

Solutions. Solution – homogeneous mixture in which solute & solvent particles are evenly distributed in one another solvent – the dissolving medium; thing.

Properties of Solutions A Solution l A solution is made up of a solute and a solvent. l The solvent does the dissolving. l The solute is the substance.

Chapter 18 Notes I Solutions & Solubility Factors Affecting Solubility.

Chapter 14 Solutions.

Properties of Solutions A Solution l A solution is made up of a solute and a solvent. l The solvent does the dissolving. l The solute is the substance.

Section 1: Solutions and Molarity Solutions Solutions are homogeneous mixtures The substance you have more of is the solvent (the substance that you.

Chemistry Chapter 15 Solutions Solutions A. Characteristics of Solutions -composed of two parts 1.The substance that is dissolved is the solute.

Heterogeneous Mixtures Heterogeneous Mixtures: Not evenly blended Suspensions: a mixture containing particles that settle out if left undisturbed Colloids:

CH 16- Solutions. Outline Concentration % by mass Molarity Dilution Formula Colligative Properties Concept- explain how it occurs BP Elevation FP Depression.

Solutions Mixtures: - Heterogenous Mixture: substances that make up the mixture are not spread uniformly throughout the mixture. - Homogenous Mixture:

Solutions. Definitions Solution: homogeneous mixture of 2 or more substances in a single physical state Solute: the substance dissolved in the solution.

Take about 5-10 minutes to review/complete your worksheet from last class with your partner What worksheet? Introduction to Liquids and Solutions Also,

Solutions. SoluteSolven t Solubility ConcentratedDilute : the ability to be dissolved temperature dependent a lot of solute little solute gets dissolved.

Chapter 16- Solutions. Solutions Homogeneous mixtures Can be solid, liquid, or gaseous Contains: Solute: dissolved particles in a solution Solvent: dissolving.

Chapter 14 Solutions. What are solutions? A Solution is…

Intermolecular Forces

Solutions Chapter 15.

Solution Stoichiometry

Solutions and Molarity

Intermolecular Forces

Behavior of Molecules in Solution

Intermolecular forces

AP Chem Turn in Popcorn Lab BRING IN ICE CREAM MATERIALS FOR THURSDAY!

Hydrogen bonding… (a) occurs only between water molecules

Ask a chemist, they always have

Concentration of Solute

Chapter 12: Solutions Mrs. Taylor HAHS H. Chem 1B.

Hydrogen bonding… (a) occurs only between water molecules

Chapter 8.3 – Solubility and Concentration

AP Chem Turn in Shaving Cream Lab if you have not done so yet!

Chapter 7B- Concentration of Solutions

Henry’s Law, Freezing Point Depression, Boiling Point Elevation and Raoult’s Law Wow, That is a Mouthful.

WATER And Solution Formation

Kinetic Molecular Theory

Solutions Chapter 15 Chapter 16.

Starter S-161 Define Saturated solution Miscible

Table of Contents Chapter 15: Solutions.

Presentation transcript:

Behavior of Molecules in Solution

The state a substance is in at a particular temperature and pressure depends on two factors Kinetic Energy of the Particles Strength of the attraction between the particles

IMF IMF = Intermolecular Forces Attractive forces between molecules Much weaker than chemical bonds within molecules

Overcoming Bonding Forces IMF control how molecules bond together Depending on the state of matter, molecules behave differently In order for a molecule to change state (i.e. liquid to solid) the IMF of the molecules must be overcome. The kinetic energy of the molecules need to overcome the IMF in order to change state ---Remember *What is kinetic energy??

Overcoming Bonding Forces IMF can be determined by the properties of the atoms/molecules.  Boiling Point (BP)  Melting Point (MP)  Vapor Pressure (VP) Higher BP,MP,VP = stronger IMF

A Model of the Dissolving of NaCl Water is such a versatile solvent that it is sometimes called the universal solvent. Its ability to act as a solvent is one of its most important physical properties.

Like Dissolves Like Although water dissolves an enormous variety of substances, both ionic and covalent, it does not dissolve everything. The phrase that scientists often use when predicting solubility is “like dissolves like.” The expression means that dissolving occurs when similarities exist between the solvent and the solute.

Concentrated Versus Dilute Chemists never apply the terms strong and weak to solution concentrations. Instead, use the terms concentrated and dilute

Preparing 1 L of an NaCl Solution How would you prepare 1.0 L of a 0.15M sodium chloride solution? First, determine the mass of NaCl to add to a 1.0-L container. The 0.15M solution must contain 0.15 moles of NaCl per liter of solution.

Preparing 1 L of an NaCl Solution The proper setup, showing the conversion factors, is as follows.

Preparing 1 L of an NaCl Solution = 8.8 g NaCl The result means you need to measure 8.8 g of NaCl, add some water to dissolve it, and then add enough additional water to bring the total volume of the solution to 1.0 L.

Practice Problems How would you prepare 5.0L of a 1.5M solution of glucose, C 6 H 12 O 6 ? You add 32.0 g of potassium chloride to a container and add enough water to bring the total solution volume to 955 mL. What is the molarity of this solution?

Dilution M 1 V 1 =M 2 V 2 M = Molarity V =Volume Ex: If I add 45 mL of water to 325 mL of a 0.15 M NaOH solution, what will the molarity of the diluted solution be?