Presentation is loading. Please wait.

Presentation is loading. Please wait.

Unit 17: Review All the Things. Part I. LPChem1415 Groups of similar elements have special names:

Published byAriel Susan Allen Modified over 8 years ago

Similar presentations

Presentation on theme: "Unit 17: Review All the Things. Part I. LPChem1415 Groups of similar elements have special names:"— Presentation transcript:

1 Unit 17: Review All the Things. Part I

2 LPChem1415 Groups of similar elements have special names:

3 LPChem1415 # valence electrons increases, left to right: 1 2 3 4 5 6 7 8

4 Valence Electrons & Stability Main Group Ion Charges LPChem1415 1+ 2+3+ 4±4± 3-2-1- 0 Positive charge means electrons were REMOVED. Negative charge means electrons were ADDED.

5 Ionic Nomenclature: Roman Numerals  Fe 2 (CO 3 ) 3 = iron ( ? ) carbonate LPChem1415 Fe 2 (CO 3 ) 3 2- 6- ( ) 3 = 06+ ( )2 + 3+ Iron (III) carbonate

6 C. Molar Conversions molar mass (formula mass) (g/mol) MASS IN GRAMS MOLES NUMBER OF PARTICLES Avogadro 6.02  10 23 (particles/mol)

7 C. Molar Conversions molar mass (formula mass) mass (grams) FM MASS IN GRAMS MOLES NUMBER OF PARTICLES Avogadro 6.02  10 23 Particles Avogadro = moles=

8 A. Molarity n 1. Concentration of a solution. total combined volume substance being dissolved

9 B. Molality n 1. Concentration of a solution. Mass of solvent substance being dissolved

10 What is the percent composition of Cu 2 S? Copper: 2(63.55) / 159.16 = Cu 2 S has a molar mass of: A. Percentage Composition 2(63.55) + 32.06 = 159.16 0.7986= 79.86 % Cu Sulfur: 1(32.06) / 159.16 = 0.2014 = 20.14 % S

11 C. Johannesson B. Empirical Formula C2H6C2H6 CH 3 reduce subscripts n Smallest whole number ratio of atoms in a compound

12 C. Johannesson B. Empirical Formula 1. Find mass (or %) of each element. 2. Find moles of each element. 3. Divide moles by the smallest # to find subscripts. 4. When necessary, multiply subscripts by 2, 3, or 4 to get whole #’s.

13 C. Johannesson B. Empirical Formula n Find the empirical formula for a sample of 25.9% N and 74.1% O. 25.9 g 1 mol 14.01 g = 1.85 mol N 74.1 g 1 mol 16.00 g = 4.63 mol O 1.85 mol = 1 N = 2.5 O

14 C. Johannesson B. Empirical Formula N 1 O 2.5 Need to make the subscripts whole numbers  multiply by 2 N2O5N2O5

15 C. Johannesson C. Molecular Formula n “True Formula” - the actual number of atoms in a compound CH 3 C2H6C2H6 empirical formula molecular formula ?

16 C. Johannesson C. Molecular Formula 1. Find the empirical formula. 2. Find the empirical formula mass. 3. Divide the molecular mass by the empirical mass. 4. Multiply each subscript by the answer from step 3.

17 C. Molecular Formula n The empirical formula for ethylene is CH 2. Find the molecular formula if the molecular mass is 28.1 g/mol? 28.1 g/mol 14.03 g/mol = 2.00 empirical mass = 14.03 g/mol (CH 2 ) 2  C 2 H 4

18 C. Johannesson A.Signs of a Chemical Reaction n Evolution of heat and light n Formation of a gas n Formation of a precipitate n Color change

19 C. Johannesson B.Law of Conservation of Mass n mass is neither created nor destroyed in a chemical reaction 4 H 2 O 4 H 2 O 4 g32 g 36 g n total mass stays the same n atoms can only rearrange

20 C. Johannesson C. Chemical Equations A+B  C+D REACTANTSPRODUCTS

21 C. Johannesson Al + CuCl 2  Cu + AlCl 3 Al Cu Cl 1 1 1 1 2 3 2  3  6   3 33 2 C. Balancing Example Aluminum and copper(II) chloride react to form copper and aluminum chloride. 2  2  6

22 D. Stoichiometry Problems  How many moles of KClO 3 must decompose in order to produce 9 moles of oxygen gas? 9 mol O 2 2 mol KClO 3 3 mol O 2 = 6 mol KClO 3 2KClO 3  2KCl + 3O 2 ? mol9 mol

23 D. Stoichiometry Problems  How many grams of silver will be formed from 12.0 g copper? 12.0 g Cu 1 mol Cu 63.55 g Cu = 40.7 g Ag Cu + 2AgNO 3  2Ag + Cu(NO 3 ) 2 2 mol Ag 1 mol Cu 107.87 g Ag 1 mol Ag 12.0 g? g

Download ppt "Unit 17: Review All the Things. Part I. LPChem1415 Groups of similar elements have special names:"

Similar presentations

It’s a beauty mark… It’s a small furry garden pest… No, wait… its how we count ATOMS!

It’s a beauty mark… It’s a small furry garden pest… No, wait… its how we count ATOMS!
Mole Notes.

Mole Notes.
Percentage Composition

Percentage Composition
Chemical Reactions.

Chemical Reactions.
IIIIIIIV Topic 6 The Mole I. Molar Conversions A. What is the Mole? n A counting number (like a dozen) n Avogadro’s number (N A ) n 1 mol = 6.02  10.

IIIIIIIV Topic 6 The Mole I. Molar Conversions A. What is the Mole? n A counting number (like a dozen) n Avogadro’s number (N A ) n 1 mol = 6.02  10.
IIIIIIIVV I.Intro to Reactions Chemical Reactions.

IIIIIIIVV I.Intro to Reactions Chemical Reactions.
Changing Matter Matter can be changed two ways: Physically Chemically

Changing Matter Matter can be changed two ways: Physically Chemically
IIIIIIIVV I.Intro to Reactions Ch.7– Chemical Reactions.

IIIIIIIVV I.Intro to Reactions Ch.7– Chemical Reactions.
Chemistry Daily 10’s Week 13. 1 1. What is the study of the mass relationships of elements in compounds? a. reaction stoichiometry b. composition stoichiometry.

Chemistry Daily 10’s Week What is the study of the mass relationships of elements in compounds? a. reaction stoichiometry b. composition stoichiometry.
Chapter 10 II. Formula Calculations

Chapter 10 II. Formula Calculations
Intro to Reactions (p. 241 – 250)

Intro to Reactions (p. 241 – 250)
IIIIIIIVV I.Intro to Reactions Chemical Reactions.

IIIIIIIVV I.Intro to Reactions Chemical Reactions.
Stoichiometry Chapter 3 Stoichiometry: Calculations with Chemical Formulas and Equations John D. Bookstaver St. Charles Community College St. Peters, MO.

Stoichiometry Chapter 3 Stoichiometry: Calculations with Chemical Formulas and Equations John D. Bookstaver St. Charles Community College St. Peters, MO.
IIIIIIIVV I.Intro to Reactions Chemical Reactions.

IIIIIIIVV I.Intro to Reactions Chemical Reactions.
IIIIIIIVV I.Intro to Reactions Ch. 8 – Chemical Reactions.

IIIIIIIVV I.Intro to Reactions Ch. 8 – Chemical Reactions.
STAAR Ladder to Success Rung 8. How do chemists define a mole? Example #1: A sample consists of 6.85 x 10 20 atoms of carbon. How many moles does the.

STAAR Ladder to Success Rung 8. How do chemists define a mole? Example #1: A sample consists of 6.85 x atoms of carbon. How many moles does the.
IIIIIIIV C. Johannesson The Mole I. Molar Conversions.

IIIIIIIV C. Johannesson The Mole I. Molar Conversions.
IIIIIIIV The Mole I. Molar Conversions What is the Mole? A counting number (like a dozen or a pair) Avogadro’s number 6.02  10 23 1 mole = 6.02  10.

IIIIIIIV The Mole I. Molar Conversions What is the Mole? A counting number (like a dozen or a pair) Avogadro’s number 6.02  mole = 6.02  10.
Proportional Relationships b Stoichiometry mass relationships between substances in a chemical reaction based on the mole ratio b Mole Ratio indicated.

Proportional Relationships b Stoichiometry mass relationships between substances in a chemical reaction based on the mole ratio b Mole Ratio indicated.
Tis the season to be thankful so lets thank Avogadro for math in Chemistry.

Tis the season to be thankful so lets thank Avogadro for math in Chemistry.

Similar presentations

Ads by Google