II. Solution Concentration (p. 480 – 488)

Slides:

Advertisements

Similar presentations

How to mix a Standard Solution

Advertisements

Ch. 3 & 7 – The Mole II. Molarity (p ).

Solutions Part II DHS Chemistry Chapter 15.

Making Molar Solutions

II. Solution Concentration (p. 480 – 486)

Copyright©2000 by Houghton Mifflin Company. All rights reserved. 1 Chemistry Properties of Solutions.

Copyright©2000 by Houghton Mifflin Company. All rights reserved. 1 Chemistry Properties of Solutions.

Materials to take notes

Chapter 14 Section 14.2 Solution Concentration

MOLARITY – Ch 13, p. 412 Quantifies the concentration of a solution.

7.85 kg KCl are dissolved in 2.38 L of solution. Find molality g table sugar (i.e., sucrose, C 12 H 22 O 11 ) are mixed into 450 g water. Find molality.

Solution Concentration. Calculations of Solution Concentration Mole fraction Mole fraction – the ratio of moles of solute to total moles of solution.

Concentration.  Distinguish between dilute and concentrated.  Calculate molarity.  Describe how to prepare solutions of given concentrations.  Calculate.

SEPARATING SOLUTIONS CONCENTRATIONS AND MOLARITY SOLUBILITY AND DISSOLVING Solutions.

Molarity and Molality.

Molarity, Molality & Dilution 11/19/08. Part I: Molarity and Molality  the concentration of a solution can be measured in a variety of ways.  the words.

II III I II. Concentration Solutions. A. Concentration  The amount of solute in a solution.  Describing Concentration % by mass - medicated creams %

I. The Nature of Solutions (p , )

I. The Nature of Solutions (p , )

Molar Concentration. Measuring Concentration Molarity (M): the number of moles of solute in 1 liter solution. Example: 0.5 moles of NaCl dissolved in.

II III I II. Concentration Ch. 13 & 14 - Solutions.

Preparing a Molar Solution

II III I I. Types of Mixtures Ch. 14 – Mixtures & Solutions.

II III I I. The Nature of Solutions Solutions. A. Definitions  Solution -  Solution - homogeneous mixture Solvent Solvent - present in greater amount.

DETERMING CONCENTRATIONS OF SOLUTIONS. MOLAR Molar is mol solube/1 L solution Making molar solution 1)Add ½ of the total solvent 2)Add required amount.

Concentration Concentration is the amount of solute dissolved in an amount of solution. Molar concentration is called Molarity, or M. M = moles.

Section 15.2 Describing Solution Composition 1. To understand mass percent and how to calculate it Objective.

C. Johannesson Concentration Ch. 12- Solutions. Concentration A measure of the amount of solute dissolved in a certain amount of solvent. Concentrated.

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

II III I II. Solution Concentration (p. 480 – 488) Ch. 14 – Mixtures & Solutions.

Aqueous Solutions and Concentration. A. Definitions Solution - homogeneous mixture Solution - homogeneous mixture Solvent - present in greater amount.

Solution Chemistry Test Review Work Stations. Station 1 – Solubility Concepts 1.Identify the three factors that affect the rate of solution formation.

II III I C. Johannesson I. The Nature of Solutions Ch Solutions.

II III I C. Johannesson I. The Nature of Solutions Solutions.

II III I II. Concentration Solutions. A. Concentration  The amount of solute in a solution.  Describing Concentration % by mass - medicated creams %

II III I C. Johannesson II. Concentration (p ) Ch. 13 & 14 - Solutions.

Solution Concentration. Concentration Describes the amount of solute dissolved in a specific amount of solvent.

Ch. 13 & 14 - Solutions II. Concentration.

Ch. 5 - Solutions. A. Concentration The amount of solute in a solution. Describing Concentration % by mass - medicated creams % by volume - rubbing alcohol.

Ch. 13/14: Solutions Describing a Solution’s Composition.

Daily Inquiry: 1.Many solutions are described as concentrated or dilute. Distinguish between these two terms. 2.A solution is made by dissolving 4.75 g.

II III I I. The Nature of Solutions (p , ) Ch. 13 & 14 - Solutions.

Chemistry Mrs. Nunez. Solution - Solution - homogeneous mixture Solvent Solvent - present in greater amount Solute Solute - substance being dissolved.

1 Concentration Day 2: Chapter 14. CONCENTRATION The amount of solute present in a set amount of solvent or total solution. The amount of solute present.

MOLARITY, MOLALITY, DILUTIONS & PERCENTS. Molarity mols M L Molarity involves a molar amount of solute, so if you are given something like grams, you.

Dilution of Solutions Don’t be dilutional… This isn’t as tough as it seems.

Solution Concentrations The measured amount of solute in a given amount of solvent or solution.

I. The Nature of Solutions

Solutions & Chemical Equilibrium

Unit 13: Solutions & Equilibrium

DILUTING A STOCK SOLN To make a soln less concentrated: add solvent

Molarity (M): State the ratio between the number of moles of solute & the volume of solution (in liters). Molarity (M) =

DO NOW Pick up Notes. Get out Solubility handout and Concept Review handout.

Ch Concentration Units

Solutions Concentration.

Preparing Standard Solutions

Solutions II. Concentration.

Do Now: Define the term concentration as it relates to a solute in a solution. C. Johannesson.

Unit 13: Solutions & Equilibrium

Section 2: Concentration

Molarity & Dilution.

Ch. 3 & 7 – The Mole II. Molarity (p ) C. Johannesson.

Ch. 3 & 7 – The Mole II. Concentration (p )

Concentration of Solute

Solution chemistry What are solutions?

Concentrations of Solutions

I. The Nature of Solutions

Introduction to Molarity

Concentration = # of moles volume (L) V = 1000 mL V = 1000 mL

Molarity (M): State the ratio between the number of moles of solute & the volume of solution (in liters). Molarity (M) =

Presentation transcript:

II. Solution Concentration (p. 480 – 488) Ch. 14 – Mixtures & Solutions II. Solution Concentration (p. 480 – 488)

A. Concentration The amount of solute in a solution Describing Concentration % by mass - medicated creams % by volume - rubbing alcohol ppm, ppb - water contaminants molarity - used by chemists molality - used by chemists

SAWS Water Quality Report - June 2000 A. Concentration SAWS Water Quality Report - June 2000

substance being dissolved A. Molarity Concentration of a solution substance being dissolved total combined volume

A. Molarity 2M HCl What does this mean?

B. Molarity Calculations LITERS OF GAS AT STP Molar Volume (22.4 L/mol) MASS IN GRAMS MOLES NUMBER OF PARTICLES Molar Mass (g/mol) 6.02  1023 particles/mol Molarity (mol/L) LITERS OF SOLUTION

B. Molarity Calculations How many grams of NaCl are required to make 0.500L of 0.25M NaCl? 0.500 L sol’n 58.44 g NaCl 1 mol NaCl 0.25 mol NaCl 1 L sol’n = 7.3 g NaCl

B. Molarity Calculations Find the molarity of a 250 mL solution containing 10.0 g of NaF. 10.0 g NaF 1 mol NaF 41.99 g NaF = 0.95 M NaF .25 L sol’n

C. Dilution Preparation of a desired solution by adding water to a concentrate. Moles of solute remain the same.

C. Dilution What volume of 15.8M HNO3 is required to make 250 mL of a 6.0M solution? GIVEN: M1 = 15.8M V1 = ? M2 = 6.0M V2 = 250 mL WORK: M1 V1 = M2 V2 (15.8M) V1 = (6.0M)(250mL) V1 = 95 mL of 15.8M HNO3

D. Molality mass of solvent only 1 kg water = 1 L water

D. Molality Find the molality of a solution containing 75 g of MgCl2 in 250 mL of water. 75 g MgCl2 1 mol MgCl2 95.21 g MgCl2 0.25 kg water = 3.2m MgCl2

D. Molality How many grams of NaCl are req’d to make a 1.54m solution using 0.500 kg of water? 0.500 kg water 1.54 mol NaCl 1 kg water 58.44 g NaCl 1 mol NaCl = 45.0 g NaCl

E. Preparing Solutions 1.54m NaCl in 0.500 kg of water 500 mL of 1.54M NaCl mass 45.0 g of NaCl add water until total volume is 500 mL mass 45.0 g of NaCl add 0.500 kg of water 500 mL water 45.0 g NaCl 500 mL mark volumetric flask

E. Preparing Solutions Copyright © 1995-1996 NT Curriculum Project, UW-Madison (above: “Filling the volumetric flask”)

E. Preparing Solutions Copyright © 1995-1996 NT Curriculum Project, UW-Madison (above: “Using your hand as a stopper”)

E. Preparing Solutions 250 mL of 6.0M HNO3 by dilution measure 95 mL of 15.8M HNO3 95 mL of 15.8M HNO3 combine with water until total volume is 250 mL 250 mL mark Safety: “Do as you oughtta, add the acid to the watta!” or AA – add acid! water for safety

Solution Preparation Mini-Lab Turn in one paper per team. Complete the following steps: A) Show the necessary calculations. B) Write out directions for preparing the solution. C) Prepare the solution. For each of the following solutions: 1) 100.0 mL of 0.50M NaCl 2) 0.25m NaCl in 100.0 mL of water 3) 100.0 mL of 3.0M HCl from 12.0M concentrate. (don’t actually prepare this one!)