Chemistry: A Molecular Approach, 1 st Edition Nivaldo J. Tro Chemical Quantities and Aqueous Reactions Chapter 4.

Slides:

Advertisements

Similar presentations

A.P. Chemistry Chapter 4: Reactions in Aqueous Solutions Part

Advertisements

Reactions in Aqueous Solutions

Example 4.1 Stoichiometry

The following problems refer to FeSO4.

What is the solute when 10 g of NaCl is dissolved in 100 mL of water?

Stoichiometry Chapter 12.

Balancing Chemical Equations and Stoichiometry

Chemical Stoichiometry

Stoichiometry TJ Bautista, Sean Higgins, Joanna Lee Period 6.

Copyright ©2009 by Pearson Education, Inc. Upper Saddle River, New Jersey All rights reserved. Introductory Chemistry, Third Edition By Nivaldo J.

CHEM 5013 Applied Chemical Principles

Raymond Chang 10th edition Chapter 4

Vocabulary In SOLUTION we need to define the - SOLVENT the component whose physical state is preserved when solution forms SOLUTE the other solution component.

Chapter 12--Stoichiometry

Chemical Calculations Prentice-Hall Chapter 12.2 Dr. Yager.

© Copyright Pearson Prentice Hall Slide 1 of 41 The Arithmetic of Equations More than 3000 cocoons are needed to produce enough silk to make just one elegant.

Quiz #3 – % composition, EF & MF

Chemistry 12.2.

Reactions in Aqueous Solutions II: Calculations Chapter 11.

Prentice Hall © 2003Chapter 4 Chapter 4 Aqueous Reactions and Solution Stoichiometry CHEMISTRY The Central Science 9th Edition David P. White.

Example 4.1 Stoichiometry

Chem 105 Chpt 4 Lsn 9 1 CHAPTER 4 Chemical Equations and Stoichiometry Chapter 4 “Quiz” points - complete all assigned homework problems from the chapter.

Student will learn: mole stoichiometry problems mass stoichiometry problems volume stoichiometry problems Student will learn: to calculate amount of reactants.

What quantities are conserved in chemical reactions? grams and atoms.

Chapters 4, and 5.  Solution:  Electrolyte:  Nonelectrolyte:

Openers 5-18 to 5-22 Chemistry. Monday What is the pH of a solution with [OH - ]=6.7x10 -5 M ?

Acids and Bases.

Dr. S. M. Condren Chapter 4 Chemical Reactions Dr. S. M. Condren Solubility Rules 1. All nitrates are soluble. 2. All compounds of Group IA metals and.

Section 4.1 Water Soluble Compounds Strong Electrolytes Weak Electrolytes Non Electrolytes Strong acids And Strong Bases Example: HNO 3 H.

© 2005 Mark S. Davis AP CHEMISTRY Chapter 3. © 2005 Mark S. Davis Law of Conservation of Mass Mass is neither created nor destroyed in chemical reactions.

Chemistry SOL Review— Molar Relationships

Principles & Modern Applications

CHM 108 SUROVIEC SPRING 2014 Chapter 4 Part 2. I. Solution Stoichiometry According to the following reaction, how many moles of Fe(OH)2 can form from.

Student will learn: mole stoichiometry problems

3.6 Solubility Solution: homogeneous mixture or mixture in which components are uniformly intermingled Solution: homogeneous mixture or mixture in which.

Page 1 Stoichiometry Chapter 9. Page 2 Stoichiometry Quantitative relationship between two substances Composition stoichiometry: mass relationships of.

Calculations with Chemical Formulas and Equations.

Chapter 3: Types of Chemical Reactions Unit A: Matter and Chemical Change.

Slide 1 of 41 Chemistry © Copyright Pearson Prentice Hall Slide 2 of Chemical Calculations The effectiveness of car’s air bags is based.

Chemistry: A Molecular Approach, 1 st Edition Nivaldo J. Tro Molecules, Compounds, and Chemical Equations Chapter 3.

Chapter 6: Mass Relationships in Chemical Reactions

Gas Stoichiometry Balanced chemical equations can be used to relate moles or grams of reactant(s) to products. When gases are involved, these relations.

8.1 Reacts with 3 mol of O2 Produces 1 mol of Al2O3

Honors Stoichiometry Examples. Example 1 What mass of carbon dioxide in grams is needed to react with 3.00mol of H 2 O in the following photosynthetic.

Unit 9: Covalent Bonding Chapters 8 & 9 Chemistry 1K Cypress Creek High School.

Chapter 41 Aqueous Reactions and Solution Stoichiometry Chapter 4.

Empirical Formula  %  g  g  mol  mol / mol. Percentage Composition Mg magnesium Cl chlorine Mg 2+ Cl 1- MgCl

Chapter 3: Calculations with Chemical Formulas and Equations MASS AND MOLES OF SUBSTANCE 3.1 MOLECULAR WEIGHT AND FORMULA WEIGHT -Molecular weight: (MW)

Chapter 9-Stoichiometry 9.1-Introduction to Stoichiometry 9.2-Ideal Stoichiometric Calculations 9.3-Limiting Reactants & Percent Yield.

Station #1 Rocket Fuel: The compound diborane (B 2 H 6 ) was at one time considered for use as a rocket fuel. How many grams of liquid oxygen would a rocket.

Empirical formula and reactant mass Learning Objective: To be able to perform calculation without a problem!

© 2014 Pearson Education, Inc. Chapter 4 Chemical Quantities and Aqueous Reactions Clicker Questions Allison Soult University of Kentucky.

Chem 105 Chpt 4 Lsn 12 1 CHAPTER 5 Reactions in Aqueous Solution Homework for Chapter 5 problems posted due Feb 26 Know: Table 5.2, pg 182 Use: Figure.

Honors Stoichiometry Examples. Example 1 What mass of carbon dioxide in grams is needed to react with 3.00mol of H 2 O in the following photosynthetic.

Calculating Quantities in Reactions

How many moles of CO2 are produced when 3 moles of pentane react with excess oxygen? C5H12(l) + 8O2(g)  5CO2(g) + 6H2O(l) 5 moles 3/5 moles 15 moles.

Chemical Quantities and Aqueous Reactions

General Chemistry CHEM 101 Dr. Mohamed El-Newehy

Chapter 6: Mass Relationships in Chemical Reactions

Gas Stoichiometry.

Chemistry 12.2.

General Chemistry CHEM 101 Dr. Mohamed El-Newehy

Chemical Calculations

Chemistry 12.2.

General Chemistry CHEM 101 Dr. Mohamed El-Newehy

DRILL Besides mass what is conserved during a chemical reaction?

General Chemistry CHEM 101 Dr. Mohamed El-Newehy

General Chemistry CHEM 101 Dr. Mohamed El-Newehy

Presentation transcript:

Chemistry: A Molecular Approach, 1 st Edition Nivaldo J. Tro Chemical Quantities and Aqueous Reactions Chapter 4

Tro Chemistry: A Molecular Approach a)18.0 g b)3.00 g c)108 g d) g The overall equation involved in photosynthesis is: 6 CO H 2 O  2 C 6 H 12 O O 2 How many grams of glucose (C 6 H 12 O 6 ) form when 4.40 g of CO 2 react?

Tro Chemistry: A Molecular Approach a)18.0 g b)3.00 g c)108 g d) g The overall equation involved in photosynthesis is: 6 CO H 2 O  2 C 6 H 12 O O 2 How many grams of glucose (C 6 H 12 O 6 ) form when 4.40 g of CO 2 react?

Tro Chemistry: A Molecular Approach a)3.88 g b)1.72 g c)0.138 g d)2.59 g The rapid decomposition of sodium azide, NaN 3, to its elements is one of the reactions used to inflate airbags: 2 NaN 3 (s)  2 Na (s) + 3 N 2 (g) How many grams of N 2 are produced from 6.00 g of NaN 3 Na N2N2

Tro Chemistry: A Molecular Approach a)3.88 g b)1.72 g c)0.138 g d)2.59 g The rapid decomposition of sodium azide, NaN 3, to its elements is one of the reactions used to inflate airbags: 2 NaN 3 (s)  2 Na (s) + 3 N 2 (g) How many grams of N 2 are produced from 6.00 g of NaN 3 Na N2N2

Tro Chemistry: A Molecular Approach a)18.2 g b)9.11 g c)1.82 x 10 4 g d)9.11x 10 3 g e)8.45 x 10 4 g Ammonia is produced using the Haber process: 3 H 2 + N 2  2 NH 3 What mass of ammonia could be produced from 15.0 kg each of H 2 and N 2 ? Assume the reaction goes to completion.

Tro Chemistry: A Molecular Approach a)18.2 g b)9.11 g c)1.82 x 10 4 g d)9.11x 10 3 g e)8.45 x 10 4 g Ammonia is produced using the Haber process: 3 H 2 + N 2  2 NH 3 What mass of ammonia could be produced from 15.0 kg each of H 2 and N 2 ? Assume the reaction goes to completion.

Tro Chemistry: A Molecular Approach What mass, in grams, of sodium bicarbonate, NaHCO 3, is required to neutralize L of M H 2 SO 4 ? a)2.94 x 10 4 b)1.47 x 10 4 c)5.88 x 10 4 d)3.50 x 10 3 e)1.75 x 10 3 f)7.00 x 10 3

Tro Chemistry: A Molecular Approach What mass, in grams, of sodium bicarbonate, NaHCO 3, is required to neutralize L of M H 2 SO 4 ? a)2.94 x 10 4 b)1.47 x 10 4 c)5.88 x 10 4 d)3.50 x 10 3 e)1.75 x 10 3 f)7.00 x 10 3

Tro Chemistry: A Molecular Approach Aqueous solutions of which of the following would conduct electricity? a)AgNO 3 b)C 11 H 22 O 11 (sucrose: table sugar) c)CH 3 CH 2 OH (ethanol) d)O 2 e)All of the above f)None of the above

Tro Chemistry: A Molecular Approach Aqueous solutions of which of the following would conduct electricity? a)AgNO 3 b)C 11 H 22 O 11 (sucrose: table sugar) c)CH 3 CH 2 OH (ethanol) d)O 2 e)All of the above f)None of the above

Tro Chemistry: A Molecular Approach Sulfuric acid is found in some types of batteries. What volume of 3.50 M H 2 SO 4 is required to prepare mL of 1.25 M H 2 SO 4 ? a)17.5 mL b)700. mL c)89.3 mL d)109 mL e)None of the above

Tro Chemistry: A Molecular Approach Sulfuric acid is found in some types of batteries. What volume of 3.50 M H 2 SO 4 is required to prepare mL of 1.25 M H 2 SO 4 ? a)17.5 mL b)700. mL c)89.3 mL d)109 mL e)None of the above

Tro Chemistry: A Molecular Approach H 2 PO 4 – SO 3 2– N 2 O 4 a) b) c) d) e) Determine the oxidation number of the red element in each of the following compounds:

Tro Chemistry: A Molecular Approach H 2 PO 4 – SO 3 2– N 2 O 4 a) b) c) d) e) Determine the oxidation number of the red element in each of the following compounds: