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Before the Bell Rings Grab 1 Paper from the side table

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Presentation on theme: "Before the Bell Rings Grab 1 Paper from the side table"— Presentation transcript:

1 Before the Bell Rings Grab 1 Paper from the side table
Have your Conductivity Lab Sheet out to check.

2 ETD Rank the conductivity of the following in solution, Draw + Explain your predictions. Lithium Chloride C6H12O6 Strontium Chloride

3 ETD 48 ANS B. Rank the conductivity of the following in solution, Draw + Explain your predictions? Lithium Chloride C6H12O6 Strontium Chloride

4 ETD 48 ANS B. Rank the conductivity of the following in solution, Draw + Explain your predictions? Lithium Chloride C6H12O6 Strontium Chloride

5 Learning Targets I can explain qualitatively the different points on a solubility curve. I can calculate the mass percentage of a solution. I can calculate the molarity of a solution.

6 Notebook check next class
Numbers 31-45 All slides should be posted to my Google Classroom or Swift Site 3 points for each ETD- Total out of 45 in front, total out of 3 on each 1 for having the ETD number 1 for having the question 1 for having the answer

7 Notes on new things

8 Solubility Curves What does the word soluble mean?
What does this graph tell you about each of the chemicals?

9 Mass Percent By mass, the percent of the solution that is solute
= Mass of solute______ x 100 Total mass of solution How many grams of a 20.5% solution of NaCl would contain 10.2 grams of NaCl?

10 Mass Percent By mass, the percent of the solution that is solute
= Mass of solute______ x 100 Total mass of solution How many grams of a 20.5% solution of NaCl would contain 10.2 grams of NaCl?

11 Mass Percent By mass, the percent of the solution that is solute
= Mass of solute______ x 100 Total mass of solution How many grams of a 20.5% solution of NaCl would contain 10.2 grams of NaCl? 20.5 % NaCl = (10.2g NaCl)(100) (x) (20.5)(x) = (10.2g NaCl)(100) x = g of Solution x = 49.8 g of Solution

12 Chemical representation of concentration M = moles of solute = mol
Molarity Chemical representation of concentration M = moles of solute = mol liters of solution L

13 Try this Molarity Problem
1. Calculate the molarity of a solution prepared by dissolving 11.5 g of solid NaOH in enough water to make mL of solution.  11.5 g of NaOH is the same as moles of NaOH mL equals 1.5 L. Therefore the molarity is moles/1.5 L = 0.19M 450 mL = L The problem is set up as x/0.450 L = M. X equals moles of NH4Cl moles of NH4Cl = 6.05 g of NH4Cl

14 1. Ans Try these Molarity Problems
1. Calculate the molarity of a solution prepared by dissolving 11.5 g of solid NaOH in enough water to make mL of solution.  11.5 g of NaOH is the same as moles of NaOH mL equals 1.5 L. Therefore the molarity is moles/1.5 L = 0.19M 450 mL = L The problem is set up as x/0.450 L = M. X equals moles of NH4Cl moles of NH4Cl = 6.05 g of NH4Cl

15 1. Ans Try these Molarity Problems
1. Calculate the molarity of a solution prepared by dissolving 11.5 g of solid NaOH in enough water to make mL of solution.  11.5 g of NaOH is the same as moles of NaOH mL equals 1.5 L. Therefore the molarity is moles/1.5 L = 0.19M 450 mL = L The problem is set up as x/0.450 L = M. X equals moles of NH4Cl moles of NH4Cl = 6.05 g of NH4Cl

16 Learning Targets I can explain qualitatively the different points on a solubility curve. I can calculate the mass percentage of a solution. I can calculate the molarity of a solution.

17 Homework Molarity #1 WS Due next class Notebook check 31-45

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