Presentation is loading. Please wait.

Presentation is loading. Please wait.

Chapter 8 Hydrates.

Published byJocelyn Potter Modified over 9 years ago

Similar presentations

Presentation on theme: "Chapter 8 Hydrates."— Presentation transcript:

1 Chapter 8 Hydrates

2 Hydrates A hydrate is a solid crystalline substance that has a certain number of water molecules as part of its structure. Example: CoCl2 • 6H2O

3 Hydrates A hydrate is a solid crystalline substance that has a certain number of water molecules as part of its structure. Example: CoCl2 • 6H2O An anhydrous salt is the hydrate minus the water. Example: CoCl2

4 Determination of a hydrate formula: CoCl2 • 6H2O
Although all problems for hydrates may sound a little different they all require that you use the information in the problem to find the: Grams of water Grams of anhydrous substance.

5 Determination of a hydrate formula
Calculate the mass of water and convert it moles. Calculate the mass of the anhydrous salt (dried salt) and convert it to moles. Divide your moles of water by your moles of anhydrous salt. Round your answer to the nearest whole number to determine the number of water molecules in the hydrate formula.

6 4. 32g of the hydrate FeSO4  xH2O is heated to drive off the water
4.32g of the hydrate FeSO4  xH2O is heated to drive off the water. After heating we find that we have 2.36g of anhydrous salt. What is the hydrate formula? Example problems are in the note outline.

7 4. 32g of the hydrate FeSO4  xH2O is heated to drive off the water
4.32g of the hydrate FeSO4  xH2O is heated to drive off the water. After heating we find that we have 2.36g of anhydrous salt. What is the hydrate formula? 4.32g FeSO4  xH2O – 2.36g FeSO4 = 1.96g H2O

8 4. 32g of the hydrate FeSO4  xH2O is heated to drive off the water
4.32g of the hydrate FeSO4  xH2O is heated to drive off the water. After heating we find that we have 2.36g of anhydrous salt. What is the hydrate formula? 4.32g FeSO4  xH2O – 2.36g FeSO4 = 1.96g H2O 1.96g H2O mol = mol H2O 18.0 g 2.36g FeSO4 mol = mol FeSO4 151.9g

9 4. 32g of the hydrate FeSO4  xH2O is heated to drive off the water
4.32g of the hydrate FeSO4  xH2O is heated to drive off the water. After heating we find that we have 2.36g of anhydrous salt. What is the hydrate formula? 4.32g FeSO4  xH2O – 2.36g FeSO4 = 1.96g H2O 1.96g H2O mol = mol H2O 18.0 g 2.36g FeSO4 mol = mol FeSO4 151.9g 0.109 mol H2O = 7.03 mol FeSO4

10 4. 32g of the hydrate FeSO4  xH2O is heated to drive off the water
4.32g of the hydrate FeSO4  xH2O is heated to drive off the water. After heating we find that we have 2.36g of anhydrous salt. What is the hydrate formula? 4.32g FeSO4  xH2O – 2.36g FeSO4 = 1.96g H2O 1.96g H2O mol = mol H2O 18.0 g 2.36g FeSO4 mol = mol FeSO4 151.9g 0.109 mol H2O = 7.03 ≈ 7 mol FeSO4

11 4. 32g of the hydrate FeSO4  xH2O is heated to drive off the water
4.32g of the hydrate FeSO4  xH2O is heated to drive off the water. After heating we find that we have 2.36g of anhydrous salt. What is the hydrate formula? 4.32g FeSO4  xH2O – 2.36g FeSO4 = 1.96g H2O 1.96g H2O mol = mol H2O 18.0 g 2.36g FeSO4 mol = mol FeSO4 151.9g 0.109 mol H2O FeSO4 • 7H2O = 7.03 ≈ 7 mol FeSO4

12 A student uses a balance to measure the mass of an evaporating dish to be 19.82g. She then pours some of the hydrate CuSO4  xH2O into the evaporating dish and measures the mass again to obtain a reading of 21.54g. She heats the hydrate gradually at first and then more rapidly to vaporize the water from the hydrate. After vaporizing the water she removes the evaporating dish from the hotplate and allows it to cool. She then measures the mass for the last time to be 20.94g. What is the formula of the hydrate?

13 A student uses a balance to measure the mass of an evaporating dish to be 19.82g. She then pours some of the hydrate CuSO4  xH2O into the evaporating dish and measures the mass again to obtain a reading of 21.54g. She heats the hydrate gradually at first and then more rapidly to vaporize the water from the hydrate. After vaporizing the water she removes the evaporating dish from the hotplate and allows it to cool. She then measures the mass for the last time to be 20.94g. What is the formula of the hydrate? Find the grams of water and the grams of anhydrous salt before attempting to solve the problem.

14 A student uses a balance to measure the mass of an evaporating dish to be 19.82g. She then pours some of the hydrate CuSO4  xH2O into the evaporating dish and measures the mass again to obtain a reading of 21.54g. She heats the hydrate gradually at first and then more rapidly to vaporize the water from the hydrate. After vaporizing the water she removes the evaporating dish from the hotplate and allows it to cool. She then measures the mass for the last time to be 20.94g. What is the formula of the hydrate? 21.54g – 19.82g = 1.72g hydrate 21.54g – 20.94g = 0.60g H2O 1.72g – 0.60g = 1.12g CuSO4

15 CuSO4 • 5H2O mol 18.0 g 0.60g H2O 1.12g CuSO4 = 0.033 mol H2O mol
The mass of an evaporating dish is 19.82g. When the hydrate CuSO4  xH2O is added to the evaporating dish the mass is 21.54g. After heating for the last time the mass is 20.94g. What is the formula of the hydrate? mol 18.0 g 0.60g H2O 1.12g CuSO4 = mol H2O mol 159.6g = mol CuSO4 0.033 mol H2O mol CuSO4 = 4.7 ≈ 5 CuSO4 • 5H2O

16 Homework Hydrate Worksheet (due tomorrow).
Do the lab summary for the Lab: “Determination of a Hydrate Formula” (due tomorrow). Study Guide Chapter 8 (due in two days).

Download ppt "Chapter 8 Hydrates."

Similar presentations

Aim: How to calculate Percent Composition

Aim: How to calculate Percent Composition
Stoichiometry © 2009, Prentice-Hall, Inc. Unit 10: Stoichiometry 1 Calculations with Chemical Formulas.

Stoichiometry © 2009, Prentice-Hall, Inc. Unit 10: Stoichiometry 1 Calculations with Chemical Formulas.
Warm Up What is a mole? What is molar mass? What is Avogadro’s number?

Warm Up What is a mole? What is molar mass? What is Avogadro’s number?
If your given is in moles: Determine the molar ratio to change from moles of your original substance to moles of the desired substance If you want your.

If your given is in moles: Determine the molar ratio to change from moles of your original substance to moles of the desired substance If you want your.
LECTURE 7 CHM 151 ©slg 1. The Mole: Molecules and Compounds 2. % Composition from Formulas 3. Empirical Formula from % Topics:

LECTURE 7 CHM 151 ©slg 1. The Mole: Molecules and Compounds 2. % Composition from Formulas 3. Empirical Formula from % Topics:
LECTURE Eight CHM 151 ©slg Formulas of “Hydrates” Unit Two: Balancing Chemical Equations Formulas of “Hydrates” Unit Two: Balancing Chemical Equations.

LECTURE Eight CHM 151 ©slg Formulas of “Hydrates” Unit Two: Balancing Chemical Equations Formulas of “Hydrates” Unit Two: Balancing Chemical Equations.
Calculations in Chapter 10. Molar Enthalpy of Fusion Used when melting or freezing = ___energy ____ mol of substance Can be arranged to find any of the.

Calculations in Chapter 10. Molar Enthalpy of Fusion Used when melting or freezing = ___energy ____ mol of substance Can be arranged to find any of the.
“A solid compound containing water molecules combined in a definite ratio as an integral part of the crystal” HYDRATES.

“A solid compound containing water molecules combined in a definite ratio as an integral part of the crystal” HYDRATES.
Wednesday, May 4 th : “A” Day Thursday, May 5 th : “B” Day Agenda  Lab Calculations: “Percent Composition of Hydrates”  Collect Lab  Movie: “Strong.

Wednesday, May 4 th : “A” Day Thursday, May 5 th : “B” Day Agenda  Lab Calculations: “Percent Composition of Hydrates”  Collect Lab  Movie: “Strong.
Salts part 2. Starter How many words can you think of that start an- ? What do they each mean?

Salts part 2. Starter How many words can you think of that start an- ? What do they each mean?
OVERVIEW OF HYDRATE CALCULATIONS CALCULATION OF THE WATER OF HYDRATION COEFFICIENT 1.FROM YOUR DATA, FIND MASS OF ANHYDROUS SALT ( SUBTRACT EMPTY BEAKER.

OVERVIEW OF HYDRATE CALCULATIONS CALCULATION OF THE WATER OF HYDRATION COEFFICIENT 1.FROM YOUR DATA, FIND MASS OF ANHYDROUS SALT ( SUBTRACT EMPTY BEAKER.
Vocabulary Hydrate - chemically, a salt with water molecule(s) attached MN. xH2O e.g. CaSO4 . ½ H2O Anhydrous - without water MN. xH2O.

Vocabulary Hydrate - chemically, a salt with water molecule(s) attached MN. xH2O e.g. CaSO4 . ½ H2O Anhydrous - without water MN. xH2O.
Copyright Sautter 2003 HOW ARE THE CHEMICAL FORMULAS FOR COMPOUNDS DETERMINED? THEY CONTAIN WATER !! WE ARE GOING TO CARRY OUT AN EXPERIMENT TO FIND.

Copyright Sautter 2003 HOW ARE THE CHEMICAL FORMULAS FOR COMPOUNDS DETERMINED? THEY CONTAIN WATER !! WE ARE GOING TO CARRY OUT AN EXPERIMENT TO FIND.
Chapter 10: Chemical Quantities

Chapter 10: Chemical Quantities
Water of crystallisation

Water of crystallisation
Section 10-1 Counting Particles Chemists need a convenient method for accurately counting the number of atoms, molecules, or formula units of a substance.

Section 10-1 Counting Particles Chemists need a convenient method for accurately counting the number of atoms, molecules, or formula units of a substance.
Sec. 10.5: The Formula for a Hydrate

Sec. 10.5: The Formula for a Hydrate
Oxford Area High School Science Department

Oxford Area High School Science Department
Hydrates Water molecules can adhere to ions as the solid forms The water becomes trapped and is part of the crystal Opals and other gems are common hydrates.

Hydrates Water molecules can adhere to ions as the solid forms The water becomes trapped and is part of the crystal Opals and other gems are common hydrates.
Molar Enthalpy of Vaporization

Molar Enthalpy of Vaporization

Similar presentations

Ads by Google