it’s time to learn about.... there she blows!!! stoichiometry: molar solutions at the conclusion...
TRANSCRIPT
It’s time to learn about . . .It’s time to learn about . . .
There she blows!!!There she blows!!!
Stoichiometry: Molar SolutionsStoichiometry: Molar SolutionsAt the conclusion of our time At the conclusion of our time together, you should be able to:together, you should be able to:
1. Define molarity2. Determine the molarity of a given solution3. Make a solution with a given molarity
Some DefinitionsSome Definitions
A solution is a A solution is a homogeneous homogeneous mixture of 2 or mixture of 2 or more substances more substances in a single phase. in a single phase.
The larger The larger constituent is constituent is usually regarded usually regarded as the as the SOLVENTSOLVENT and the others as and the others as SOLUTESSOLUTES..
IONIC COMPOUNDSIONIC COMPOUNDSCompounds in Aqueous SolutionCompounds in Aqueous Solution
Many reactions involve ionic Many reactions involve ionic compounds, in water these are — compounds, in water these are — aqueous solutions.aqueous solutions.
KMnOKMnO44 in water in water KK++(aq) + MnO(aq) + MnO44--(aq)(aq)
What Do You Get From a What Do You Get From a Pampered Cow?Pampered Cow?
Spoiled Milk.
Concentration of SoluteConcentration of SoluteConcentration of SoluteConcentration of Solute
The amount of solute in a solution is The amount of solute in a solution is given by its given by its concentrationconcentration.
Molarity(M)= moles soluteliters of solution
PROBLEM: Dissolve 5.00 g of NiClPROBLEM: Dissolve 5.00 g of NiCl22•6 H•6 H22O O in enough water to make 250 mL of in enough water to make 250 mL of
solution. Calculate the Molarity.solution. Calculate the Molarity.
PROBLEM: Dissolve 5.00 g of NiClPROBLEM: Dissolve 5.00 g of NiCl22•6 H•6 H22O O in enough water to make 250 mL of in enough water to make 250 mL of
solution. Calculate the Molarity.solution. Calculate the Molarity.
Step 1: Step 1: Calculate moles of Calculate moles of NiClNiCl22•6H•6H22OO
5.00 g • 1 mol
237.7 g = 0.0210 mol
0.0210 mol0.250 L
= 0.0841 M
Step 2: Step 2: Calculate MolarityCalculate Molarity
[NiClNiCl22•6 H•6 H22O O ] = 0.0841 M
Concentration of SoluteConcentration of SoluteConcentration of SoluteConcentration of Solute
Therefore: x both sides by Liters =
MV = moles = grams/molar mass
Molarity(M)= moles soluteliters of solution
SAME PROBLEM: Using moles = MV.SAME PROBLEM: Using moles = MV.SAME PROBLEM: Using moles = MV.SAME PROBLEM: Using moles = MV.
= 0.0841 M NiCl2*6H2O
5.00 g NiCl2 x 1 mol NiCl2
237.71 g NiCl2
= M x 0.250 L
USING MOLARITYUSING MOLARITYUSING MOLARITYUSING MOLARITY
moles = M•Vmoles = M•V
What mass of oxalic acid, What mass of oxalic acid, HH22CC22OO44, is, is
required to make 250. mL of a 0.0500 Mrequired to make 250. mL of a 0.0500 Msolution?solution?
X g H2C2O4 x 1 mol H2C2O4
90.04 g H2C2O4
= 0.0500 x 0.250 L
= 1.13 g H2C2O4
Page 25:2Page 25:2Page 25:2Page 25:2
moles = M•Vmoles = M•V
X g NaNO3 x 1 mol NaNO3
85.00 g NaNO3
= 0.50 M x 1.00 L
= 42.5 g NaNO3
Over-Worked MouseOver-Worked Mouse
Learning Check the Old Way?!!Learning Check the Old Way?!!
How many grams of NaOH are required to prepare 400. mL of 3.0 M NaOH solution?
moles = MVmol = 3.0 M x 0.400 Lmol = 1.2
48 g NaOH
1.2 mol NaOH x 40.00 g NaOH
1 mol NaOH
The Better WayThe Better WayThe Better WayThe Better Way
moles = M•Vmoles = M•V
X g NaOH x 1 mol NaOH
40.00 g NaOH= 3.0 M x 0.400 L
= 48 g NaOH
Hopefully, you’re not this lost!!!
Preparing SolutionsPreparing SolutionsPreparing SolutionsPreparing Solutions
Determine the mass of Determine the mass of solute.solute.
Place in the appropriate Place in the appropriate volumetric flask.volumetric flask.
Add deionized water and Add deionized water and swirl until solute is dissolved.swirl until solute is dissolved.
Add water to the mark on Add water to the mark on the neck of the flask.the neck of the flask.
Stopper and mix thoroughly.Stopper and mix thoroughly.
Interesting Vanity Plate…Interesting Vanity Plate…
Stoichiometry: Molar SolutionsStoichiometry: Molar SolutionsLet’s see if you can:Let’s see if you can:
1. Define molarity2. Determine the molarity of a given solution3. Make a solution with a given molarity
Concentration of SoluteConcentration of SoluteConcentration of SoluteConcentration of Solute
Therefore:
MV = moles = grams/molar mass
Molarity(M)= moles soluteliters of solution
Support Bacteria!!Support Bacteria!!
They're the only culture some people have.
PROBLEM: PROBLEM: Mr. T accidentally dropped Mr. T accidentally dropped 15.14 g of silver (I) nitrate into 100.0 mL 15.14 g of silver (I) nitrate into 100.0 mL of deionized water. Rather than throw of deionized water. Rather than throw
the solution away, help him by the solution away, help him by determining its molar concentration so determining its molar concentration so
that he can label it and still use it.that he can label it and still use it...
PROBLEM: PROBLEM: Mr. T accidentally dropped Mr. T accidentally dropped 15.14 g of silver (I) nitrate into 100.0 mL 15.14 g of silver (I) nitrate into 100.0 mL of deionized water. Rather than throw of deionized water. Rather than throw
the solution away, help him by the solution away, help him by determining its molar concentration so determining its molar concentration so
that he can label it and still use it.that he can label it and still use it...
= 0.8912 M AgNO3
15.14 g AgNO3 x 1 mol AgNO3
169.88 g AgNO3
= M x 0.100 L
PROBLEM: PROBLEM: Mr. T needs to make 0.500 L Mr. T needs to make 0.500 L of a 0.100 M solution of lead (II) nitrate of a 0.100 M solution of lead (II) nitrate for a future lab. Please help him by for a future lab. Please help him by calculating the amount of solute needed calculating the amount of solute needed and by outlining in detail the steps he and by outlining in detail the steps he would need to take to make this molar would need to take to make this molar solution.solution.
PROBLEM: PROBLEM: Mr. T needs to make 0.500 L Mr. T needs to make 0.500 L of a 0.100 M solution of lead (II) nitrate of a 0.100 M solution of lead (II) nitrate for a future lab. Please help him by for a future lab. Please help him by calculating the amount of solute needed calculating the amount of solute needed and by outlining in detail the steps he and by outlining in detail the steps he would need to take to make this molar would need to take to make this molar solution.solution.
= 16.6 g Pb(NO3)2
X g Pb(NO3)2 x 1 mol Pb(NO3)2
331.22 g Pb(NO3)2
= 0.100 M x 0.500 L
Preparing SolutionsPreparing SolutionsPreparing SolutionsPreparing Solutions
Measure 16.6 g Measure 16.6 g Pb(NO3)2..
Place in a 0.500 L Place in a 0.500 L volumetric flask.volumetric flask.
Add deionized water and Add deionized water and swirl until solute is swirl until solute is dissolved.dissolved.
Add water to the mark on Add water to the mark on the neck of the flask.the neck of the flask.
Stopper and mix thoroughly.Stopper and mix thoroughly.
Most Caring Person!!Most Caring Person!!
An elderly gentleman had recently lost his wife.Upon seeing the man cry, a little 4 year old neighbor boy went into the old gentleman's yard, climbed onto his lap, and just sat there.
When his mother asked him what he had said to the neighbor, the little boy just said,
"Nothing, I just helped him cry."
PROBLEM Page 26-4: Grams to make PROBLEM Page 26-4: Grams to make 100. mL of 0.100 M calcium hydroxide100. mL of 0.100 M calcium hydroxide..PROBLEM Page 26-4: Grams to make PROBLEM Page 26-4: Grams to make 100. mL of 0.100 M calcium hydroxide100. mL of 0.100 M calcium hydroxide..
= 0.741 g Ca(OH)2
X g Ca(OH)2 x 1 mol Ca(OH)2
74.10 g Ca(OH)2
= 0.100 M x 0.100 L
PROBLEM Page 26-5: 4.00 moles of nitric PROBLEM Page 26-5: 4.00 moles of nitric acid in 1.50 L of solution = what Macid in 1.50 L of solution = what M..PROBLEM Page 26-5: 4.00 moles of nitric PROBLEM Page 26-5: 4.00 moles of nitric acid in 1.50 L of solution = what Macid in 1.50 L of solution = what M..
= 2.67 M HNO3
4.00 mol HNO3
= X M x 1.50 L
Entrance Quiz #1Entrance Quiz #1
1. Calculate the molarity if 0.75 mol of NaCl in placed in 300.0 mL of water.
2. Calculate the number of moles and grams of HCl if there is 12.2 mL of 2.45 M HCl solution.
1. Calculate the molarity if 0.75 mol of NaCl in placed in 300.0 mL of water.
2. Calculate the number of moles and grams of HCl if there is 12.2 mL of 2.45 M HCl solution.
0.75 mol NaCl
= X M x 0.3000 L
= 2.5 M NaCl
X mol HCl
= 2.45 M x 0.0122 L
= 0.0299 mol HCl
0.0299 mol HCl x 36.46 g HCl
1 mol HCl= 1.09 g HCl
Entrance Quiz #2 Entrance Quiz #2
1. Calculate the molarity if 0.50
mol of KBr in placed in 750 mL of water.
2. Calculate the number of moles and molarity of HCl if there is 12.2 mL with 2.45 g of HCl in solution.
1. Calculate the molarity if 0.50 mol of KBr in placed in 750 mL of water.
2. Calculate the number of moles and molarity of HCl if there is 12.2 mL with 2.45 g of HCl.
0.50 mol KBr
= X M x 0.75 L
= 0.67 M KBr
0.0672 mol HCl
= X M x 0.0122 L
= 5.51 M HCl
2.45 g HCl x 1 mol HCl
36.46 g HCl= 0.0672 mol HCl
Stoichiometry: Molar SolutionsStoichiometry: Molar SolutionsAt the conclusion of our time At the conclusion of our time together, you should be able to:together, you should be able to:
1. Define molarity2. Determine the molarity of a given solution3. Make a solution with a given molarity4. Dilute a given solution to a new molarity
Kid’s Letters Kid’s Letters to God:to God:
For Dilution: the Amount (moles) of For Dilution: the Amount (moles) of Solute #1 = #2Solute #1 = #2
For Dilution: the Amount (moles) of For Dilution: the Amount (moles) of Solute #1 = #2Solute #1 = #2
M1V1 = moles and M2V2 = moles
Therefore if moles of solute are constant:
M1V1 = M2V2
Molarity(M)= moles soluteliters of solution
And Using the Formula:
The Scientific MethodThe Scientific Methodbegins with begins with
Questions about the World Around Questions about the World Around You.You.
Ever Wonder Why?...Ever Wonder Why?...
there are flotation devices under plane seats instead of parachutes?
PROBLEM Page 30-1: Using PROBLEM Page 30-1: Using MM11VV11 = = MM22VV22
PROBLEM Page 30-1: Using PROBLEM Page 30-1: Using MM11VV11 = = MM22VV22
= 0.125 M NaOH
0.150 M NaOH x 0.125 L
= M x 0.150 L
PROBLEM Page 30-5: Using PROBLEM Page 30-5: Using MM11VV11 = = MM22VV22
PROBLEM Page 30-5: Using PROBLEM Page 30-5: Using MM11VV11 = = MM22VV22
= 1.20 L
Therefore: 0.700 L needs to be added
2.40 M KCl x 0.500 L
= 1.00 M KCl x X L
How We How We Doing?? Need Doing?? Need Help????Help????
Stoichiometry: Molar SolutionsStoichiometry: Molar SolutionsLet’s see if you can:Let’s see if you can:
1. Define molarity2. Determine the molarity of a given solution3. Make a solution with a given molarity4. Dilute a given solution to a new molarity
I knew I shouldn’t have done that!!I knew I shouldn’t have done that!!
How much water do I need to add to 250 How much water do I need to add to 250 mL of 3.0 M HCl to dilute it to 1.0 M HCl?mL of 3.0 M HCl to dilute it to 1.0 M HCl?How much water do I need to add to 250 How much water do I need to add to 250 mL of 3.0 M HCl to dilute it to 1.0 M HCl?mL of 3.0 M HCl to dilute it to 1.0 M HCl?
= 0.75 L Total, therefore 0.50 L
3.0 M HCl x 0.250 L
= 1.0 M HCl x L
Name ________Class Period _____ Clicker Number
Name ________Class Period _____ Clicker Number
"Making Molar Solutions A1"
(10 points)
Make 50.00 mL of a 0.100M BaCl22H2O solution.
__________ grams mass of solute needed
__________ Instructor initials (one point)
What are the products of the reaction? Balance the equation. Write the balanced molecular, complete ionic and net ionic equations below. Place the precipitate on the 3rd line of the first row of lines. (5 points)
________ + ________ ________ + ________ ___ ____ + ___ ____ ______ + ___ ____ ____ + ___ _____ What is this the best molar ratio based on
the stoichiometry? Should you have put all 50.00 mL of each reactant together to form the most product? Circle yes or no. (2 points)
____________ : ____________ Yes No
Preparing SolutionsPreparing SolutionsPreparing SolutionsPreparing Solutions
Determine the mass of Determine the mass of solute.solute.
Place in the appropriate Place in the appropriate volumetric flask.volumetric flask.
Add deionized water and Add deionized water and swirl until solute is dissolved.swirl until solute is dissolved.
Add water to the mark on Add water to the mark on the neck of the flask.the neck of the flask.
Stopper and mix thoroughly.Stopper and mix thoroughly.
