1) Monday, Tuesday, January 6, 7, 2020
Define molarity, and calculate the molarity of a solution.
Do Now
Page 454: Define solution, suspension.
Page 455: Define solvent, solute.
Page 462: Define molarity;
Page 465: Read sample problem B. Do practice 1, 2, 3, 4, 5, 6, 7.
Page 467: Do practice 8, 9.
Page 489: Do 47, 48, 50, 51, 52, 53, 54.
Define molarity, and calculate the molarity of a solution.
Do Now
Page 454: Define solution, suspension.
Page 455: Define solvent, solute.
Page 462: Define molarity;
Page 465: Read sample problem B. Do practice 1, 2, 3, 4, 5, 6, 7.
Page 467: Do practice 8, 9.
Page 489: Do 47, 48, 50, 51, 52, 53, 54.
answers_to_chapter_review_questions_page_489-490.pdf | |
File Size: | 114 kb |
File Type: |
2) Wednesday, January 8, 2020
Use molarity in calculations
Do Now
Page 467: Do practice 7, 10
Page 489: Do 49,
Page 490: Do 55, 56, 59, 60.
Use molarity in calculations
Do Now
Page 467: Do practice 7, 10
Page 489: Do 49,
Page 490: Do 55, 56, 59, 60.
answers_to_chapter_review_questions_page_489-490.pdf | |
File Size: | 114 kb |
File Type: |
3) Thursday, January 9, 2020
Identify application of solubility principles. Explain what happens at the particle level when a solid compound dissolves in a liquid.
Do Now
Page 468: Define solubility
Page 470: Define miscible, immiscible.
Page 472: Define hydration, dissociation
Page 473: Draw and explain figure 13.
Page 477: Answer section review (1-8)
Identify application of solubility principles. Explain what happens at the particle level when a solid compound dissolves in a liquid.
Do Now
Page 468: Define solubility
Page 470: Define miscible, immiscible.
Page 472: Define hydration, dissociation
Page 473: Draw and explain figure 13.
Page 477: Answer section review (1-8)
4) Friday, January 10, 2020
Identify application of solubility principles. Explain what happens at the particle level when a solid compound dissolves in a liquid.
Do Now
PhET simulation: Molarity
Identify application of solubility principles. Explain what happens at the particle level when a solid compound dissolves in a liquid.
Do Now
PhET simulation: Molarity
5) Monday, January 13, 2020
Contrast reactions that go to completion with reversible ones. Describe chemical equilibrium. Write Keq expressions for reactions in equilibrium, and perform calculations with them.
Do Now
Page 497: Define reversible reaction, chemical equilibrium.
Page 503: Define equilibrium constant Keq. Copy Skills Toolkit.
Page 504: Copy table 2.
Page 504: Read sample problem A. Do practice 1, 2.
Page 521: Do 17.
Page 522: Do 18
Contrast reactions that go to completion with reversible ones. Describe chemical equilibrium. Write Keq expressions for reactions in equilibrium, and perform calculations with them.
Do Now
Page 497: Define reversible reaction, chemical equilibrium.
Page 503: Define equilibrium constant Keq. Copy Skills Toolkit.
Page 504: Copy table 2.
Page 504: Read sample problem A. Do practice 1, 2.
Page 521: Do 17.
Page 522: Do 18
6)Tuesday, January 14, 2020
Contrast reactions that go to completion with reversible ones. Describe chemical equilibrium. Write Keq expressions for reactions in equilibrium, and perform calculations with them.
Do Now
Page 522-523: Do practice problems 30, 31, 32, 33, 34.
Contrast reactions that go to completion with reversible ones. Describe chemical equilibrium. Write Keq expressions for reactions in equilibrium, and perform calculations with them.
Do Now
Page 522-523: Do practice problems 30, 31, 32, 33, 34.
7) Monday, January 27, 2020
Contrast reactions that go to completion with reversible ones. Describe chemical equilibrium. Write Ksp expressions for the solubility of slightly soluble salts, and perform calculations with them.
Do Now
Page 507: Define solubility product constant Ksp. Explain figure 8.
Page 509: Do sample problem C, and practice 1, 2, 3.
Page 523: Do 39, 40, 41, 42.
Contrast reactions that go to completion with reversible ones. Describe chemical equilibrium. Write Ksp expressions for the solubility of slightly soluble salts, and perform calculations with them.
Do Now
Page 507: Define solubility product constant Ksp. Explain figure 8.
Page 509: Do sample problem C, and practice 1, 2, 3.
Page 523: Do 39, 40, 41, 42.
8) Tuesday, January 28, 2020
Contrast reactions that go to completion with reversible ones. Describe chemical equilibrium. Write Ksp expressions for the solubility of slightly soluble salts, and perform calculations with them.
Do Now
Page 510: Read sample problem D. Do practice 1, 2, 3.
Page 511: Do section review 6.
Page 523-524: Do 39, 42, 43.
Contrast reactions that go to completion with reversible ones. Describe chemical equilibrium. Write Ksp expressions for the solubility of slightly soluble salts, and perform calculations with them.
Do Now
Page 510: Read sample problem D. Do practice 1, 2, 3.
Page 511: Do section review 6.
Page 523-524: Do 39, 42, 43.
9) Wednesday, January 29, 2020
Contrast reactions that go to completion with reversible ones. Describe chemical equilibrium. Write Ksp expressions for the solubility of slightly soluble salts, and perform calculations with them.
Do Now
Page 871-872: Do 1-21
Contrast reactions that go to completion with reversible ones. Describe chemical equilibrium. Write Ksp expressions for the solubility of slightly soluble salts, and perform calculations with them.
Do Now
Page 871-872: Do 1-21
10) Thursday, January 30, 2020
Contrast reactions that go to completion with reversible ones. Describe chemical equilibrium. Write Ksp expressions for the solubility of slightly soluble salts, and perform calculations with them.
Do Now
Page 871-872: Do 1-21
Contrast reactions that go to completion with reversible ones. Describe chemical equilibrium. Write Ksp expressions for the solubility of slightly soluble salts, and perform calculations with them.
Do Now
Page 871-872: Do 1-21
9) Friday, January 31, 2020
Contrast reactions that go to completion with reversible ones. Describe chemical equilibrium. Write Ksp expressions for the solubility of slightly soluble salts, and perform calculations with them.
Do Now
Phet Simulation: Salts and Solubility (Link)
Contrast reactions that go to completion with reversible ones. Describe chemical equilibrium. Write Ksp expressions for the solubility of slightly soluble salts, and perform calculations with them.
Do Now
Phet Simulation: Salts and Solubility (Link)