We’ll show you how to calculate the pH of a solution formed by mixing a strong acid with a strong...

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We’ll show you how to calculate the pH of a solution formed by mixing a strong acid with a strong base. Strong Acid– Strong Base Mixtures

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Page 1: We’ll show you how to calculate the pH of a solution formed by mixing a strong acid with a strong base. Strong Acid– Strong Base Mixtures.

We’ll show you how to calculate the pH of a solution formed by mixing a strong acid with a strong base.

Strong Acid– Strong Base

Mixtures

Page 2: We’ll show you how to calculate the pH of a solution formed by mixing a strong acid with a strong base. Strong Acid– Strong Base Mixtures.

We’ll consider adding equal amounts of a strong acid and a strong base to the beaker on the bottom.

Strong Acid

Strong

Base

Page 3: We’ll show you how to calculate the pH of a solution formed by mixing a strong acid with a strong base. Strong Acid– Strong Base Mixtures.

Strong acids contribute hydronium ions to aqueous solutions.

H3O+

Strong Acid

Strong

Base

Page 4: We’ll show you how to calculate the pH of a solution formed by mixing a strong acid with a strong base. Strong Acid– Strong Base Mixtures.

Acids can more simply be viewed as donating protons or H+ ions. HERE, we’ll consider acids as a source of H+ ions.

H+

Strong Acid

Strong

Base

Page 5: We’ll show you how to calculate the pH of a solution formed by mixing a strong acid with a strong base. Strong Acid– Strong Base Mixtures.

And bases are a source of hydroxide or OH minus ions.

H+

Strong Acid

Strong

Base

OH–

Page 6: We’ll show you how to calculate the pH of a solution formed by mixing a strong acid with a strong base. Strong Acid– Strong Base Mixtures.

When a strong acid is added to a container (click), it brings H+ ions with it.

Strong Acid

Strong

Base

OH–H+

Page 7: We’ll show you how to calculate the pH of a solution formed by mixing a strong acid with a strong base. Strong Acid– Strong Base Mixtures.

And when a strong base is added (click), it brings hydroxide or OH minus ions with it. Of course when the base is added it immediately mixes with the acid.

Strong Acid

Strong

Base

H+

OH–

Page 8: We’ll show you how to calculate the pH of a solution formed by mixing a strong acid with a strong base. Strong Acid– Strong Base Mixtures.

However, here we’ll pretend it doesn’t mix yet, so we can get a more detailed idea of the processes.

OH–

Strong Acid

Strong

Base

H+

Page 9: We’ll show you how to calculate the pH of a solution formed by mixing a strong acid with a strong base. Strong Acid– Strong Base Mixtures.

As the solutions mix, H+ and OH minus ions move toward each other.

OH–

Strong Acid

Strong

Base

H+

Page 10: We’ll show you how to calculate the pH of a solution formed by mixing a strong acid with a strong base. Strong Acid– Strong Base Mixtures.

And in the process of neutralization, react with each other to form water.

OH–

Strong Acid

Strong

Base

H+

H2O

2H OOHH

Page 11: We’ll show you how to calculate the pH of a solution formed by mixing a strong acid with a strong base. Strong Acid– Strong Base Mixtures.

And the spectator ions in the acid and base will be present as a neutral salt.

Strong Acid

Strong

Base

H2O and a Salt

Page 12: We’ll show you how to calculate the pH of a solution formed by mixing a strong acid with a strong base. Strong Acid– Strong Base Mixtures.

Now we’ll use a slightly different model to visualize adding a strong acid to a strong base. In this case we’ll start with equal moles (click) of H+ and OH minus, and move these together.

Strong Acid

H+

H+

H+

H+

H+

H+

Strong

Base

OH–

OH–

OH–

OH–

OH–

OH–

Page 13: We’ll show you how to calculate the pH of a solution formed by mixing a strong acid with a strong base. Strong Acid– Strong Base Mixtures.

The H+ and OH- will neutralize each other to form water.

Strong Acid

H+

H+

H+

H+

H+

H+

Strong

Base

OH–

OH–

OH–

OH–

OH–

OH–

H2OH2OH2OH2OH2OH2O

Page 14: We’ll show you how to calculate the pH of a solution formed by mixing a strong acid with a strong base. Strong Acid– Strong Base Mixtures.

and there is no strong acid or base left over,

H2OH2OH2OH2OH2OH2O

Page 15: We’ll show you how to calculate the pH of a solution formed by mixing a strong acid with a strong base. Strong Acid– Strong Base Mixtures.

so the final mixture is neutral

H2OH2OH2OH2OH2OH2O

The Final Mixture

is Neutral

Page 16: We’ll show you how to calculate the pH of a solution formed by mixing a strong acid with a strong base. Strong Acid– Strong Base Mixtures.

This time the acid we’re starting with has more H+ than the base has OH minus. The H+ is in excess.(click)

Strong Acid

H+

H+

H+

H+

H+

H+

H+

Strong

Base

OH–

OH–

OH–

OH–

OH–

OH–

Page 17: We’ll show you how to calculate the pH of a solution formed by mixing a strong acid with a strong base. Strong Acid– Strong Base Mixtures.

Each OH- ion will neutralize an H+ ion to form water

Strong Acid

H+

H+

H+

H+

H+

H+

H+

Strong

Base

OH–

OH–

OH–

OH–

OH–

OH–

H2OH2OH2OH2OH2OH2O

Page 18: We’ll show you how to calculate the pH of a solution formed by mixing a strong acid with a strong base. Strong Acid– Strong Base Mixtures.

But since we had started with an excess of H+, we have some H+ left over. There weren’t enough OH minus ions available to neutralize all the H+ ions we added.

H+

H2OH2OH2OH2OH2OH2O

ExcessH+ Left Over

Page 19: We’ll show you how to calculate the pH of a solution formed by mixing a strong acid with a strong base. Strong Acid– Strong Base Mixtures.

Because there is H+ left over, the final mixture is Acidic

H+

H2OH2OH2OH2OH2OH2O

The Final Mixture is Acidic

ExcessH+ Left Over

Page 20: We’ll show you how to calculate the pH of a solution formed by mixing a strong acid with a strong base. Strong Acid– Strong Base Mixtures.

Now we’ll look at another combination.This time the base we’re starting with has More OH minus than the acid has H+. The OH minus is in excess (click). So we combine them.

Strong

Base

OH–

OH–

OH–

OH–

OH–

OH–

Strong Acid

H+

H+

H+

H+

H+

Page 21: We’ll show you how to calculate the pH of a solution formed by mixing a strong acid with a strong base. Strong Acid– Strong Base Mixtures.

Each H+ ion present will neutralize one OH- ion to form water.

Strong

Base

OH–

OH–

OH–

OH–

OH–

OH–

Strong Acid

H+

H+

H+

H+

H+

H2OH2OH2OH2OH2O

Page 22: We’ll show you how to calculate the pH of a solution formed by mixing a strong acid with a strong base. Strong Acid– Strong Base Mixtures.

This time, we have excess OH minus left over.

OH–

H2OH2OH2OH2OH2O

Excess OH– Left

Over

Page 23: We’ll show you how to calculate the pH of a solution formed by mixing a strong acid with a strong base. Strong Acid– Strong Base Mixtures.

so the final mixture is basic.

OH–

H2OH2OH2OH2OH2O

Excess OH– Left

Over

The Final Mixture is Basic

Page 24: We’ll show you how to calculate the pH of a solution formed by mixing a strong acid with a strong base. Strong Acid– Strong Base Mixtures.

Now we’ll do an example question. We’re told that 18.0 mL of 0.200 M HCl is added to 25.0 mL of 0.160 M NaOH.

18.0 mL of 0.200 M HCl is added to 25.0 mL of 0.160 M NaOH.

Page 25: We’ll show you how to calculate the pH of a solution formed by mixing a strong acid with a strong base. Strong Acid– Strong Base Mixtures.

And we’re asked to find the pH of the final mixture.

18.0 mL of 0.200 M HCl is added to 25.0 mL of 0.160 M NaOH. Find the pH of the final mixture.

Page 26: We’ll show you how to calculate the pH of a solution formed by mixing a strong acid with a strong base. Strong Acid– Strong Base Mixtures.

We’ll begin by finding the initial moles of H+ added.

18.0 mL of 0.200 M HCl is added to 25.0 mL of 0.160 M NaOH. Find the pH of the final mixture.

0.200 molmol HCl 0.0180 L 0.00360 mol H

1m

Lol Hin ini itial ltia

0.160 mol mol OH mol NaOH 0.0250 L 0.00400 mol OH

1Linitial initial

excess mol OH 0.00400 mol OH 0.00360 mol H 0.00040 mol OH

0.00040 mol OH 0.00040 mol OH

Final OH 0.0093 M0.0430 L0.0180 L 0.0250 L

pOH log OH log 0.0093 2.03 pH 14.00 pOH 14.00 2.03 11.97

Page 27: We’ll show you how to calculate the pH of a solution formed by mixing a strong acid with a strong base. Strong Acid– Strong Base Mixtures.

Because the source of H+, HCl is a strong monoprotic acid, the moles of H+ is equal to the moles of HCl.

18.0 mL of 0.200 M HCl is added to 25.0 mL of 0.160 M NaOH. Find the pH of the final mixture.

0.200 molmol H 0.0180 L 0.mol 00360 mol H

1L HClin ini itial tial

0.160 mol mol OH mol NaOH 0.0250 L 0.00400 mol OH

1Linitial initial

excess mol OH 0.00400 mol OH 0.00360 mol H 0.00040 mol OH

0.00040 mol OH 0.00040 mol OH

Final OH 0.0093 M0.0430 L0.0180 L 0.0250 L

pOH log OH log 0.0093 2.03 pH 14.00 pOH 14.00 2.03 11.97

Page 28: We’ll show you how to calculate the pH of a solution formed by mixing a strong acid with a strong base. Strong Acid– Strong Base Mixtures.

The moles of HCl is equal to 0.200 moles per L

18.0 mL of 0.200 M HCl is added to 25.0 mL of 0.160 M NaOH. Find the pH of the final mixture.

0.200 mmol H mol HCl 0.00360 mol

ol0.0180 L

1LHinitial initial

0.160 mol mol OH mol NaOH 0.0250 L 0.00400 mol OH

1Linitial initial

excess mol OH 0.00400 mol OH 0.00360 mol H 0.00040 mol OH

0.00040 mol OH 0.00040 mol OH

Final OH 0.0093 M0.0430 L0.0180 L 0.0250 L

pOH log OH log 0.0093 2.03 pH 14.00 pOH 14.00 2.03 11.97

Page 29: We’ll show you how to calculate the pH of a solution formed by mixing a strong acid with a strong base. Strong Acid– Strong Base Mixtures.

times 0.0180 L

18.0 mL of 0.200 M HCl is added to 25.0 mL of 0.160 M NaOH. Find the pH of the final mixture.

0.200 molmol H mol HCl 0.00360 mol H

10.0180

LLinitial initial

0.160 mol mol OH mol NaOH 0.0250 L 0.00400 mol OH

1Linitial initial

excess mol OH 0.00400 mol OH 0.00360 mol H 0.00040 mol OH

0.00040 mol OH 0.00040 mol OH

Final OH 0.0093 M0.0430 L0.0180 L 0.0250 L

pOH log OH log 0.0093 2.03 pH 14.00 pOH 14.00 2.03 11.97

Page 30: We’ll show you how to calculate the pH of a solution formed by mixing a strong acid with a strong base. Strong Acid– Strong Base Mixtures.

Which is 0.00360 moles. So 0.00360 moles of H+ was added.

18.0 mL of 0.200 M HCl is added to 25.0 mL of 0.160 M NaOH. Find the pH of the final mixture.

0.200 m0.00360 mol H

olmol H mol HCl 0.0180 L

1Linitial initial

0.160 mol mol OH mol NaOH 0.0250 L 0.00400 mol OH

1Linitial initial

excess mol OH 0.00400 mol OH 0.00360 mol H 0.00040 mol OH

0.00040 mol OH 0.00040 mol OH

Final OH 0.0093 M0.0430 L0.0180 L 0.0250 L

pOH log OH log 0.0093 2.03 pH 14.00 pOH 14.00 2.03 11.97

Page 31: We’ll show you how to calculate the pH of a solution formed by mixing a strong acid with a strong base. Strong Acid– Strong Base Mixtures.

Now we’ll calculate the initial moles of OH minus added.

18.0 mL of 0.200 M HCl is added to 25.0 mL of 0.160 M NaOH. Find the pH of the final mixture.

0.200 molmol H mol HCl 0.0180 L 0.00360 mol H

1Linitial initial

0.160 mol mol NaOH 0.0250 L 0.00400 mol OH

1H

Lmol O i inn iitial tial

excess mol OH 0.00400 mol OH 0.00360 mol H 0.00040 mol OH

0.00040 mol OH 0.00040 mol OH

Final OH 0.0093 M0.0430 L0.0180 L 0.0250 L

pOH log OH log 0.0093 2.03 pH 14.00 pOH 14.00 2.03 11.97

Page 32: We’ll show you how to calculate the pH of a solution formed by mixing a strong acid with a strong base. Strong Acid– Strong Base Mixtures.

Because NaOH is a strong base with one OH in its formula, the moles of OH minus is equal to the moles of NaOH added.

18.0 mL of 0.200 M HCl is added to 25.0 mL of 0.160 M NaOH. Find the pH of the final mixture.

0.200 molmol H mol HCl 0.0180 L 0.00360 mol H

1Linitial initial

0.160 mol mol OH 0.0250 L 0.0mo 0400 mol OH

1N

Ll aOHi inn iiti ta iall

excess mol OH 0.00400 mol OH 0.00360 mol H 0.00040 mol OH

0.00040 mol OH 0.00040 mol OH

Final OH 0.0093 M0.0430 L0.0180 L 0.0250 L

pOH log OH log 0.0093 2.03 pH 14.00 pOH 14.00 2.03 11.97

Page 33: We’ll show you how to calculate the pH of a solution formed by mixing a strong acid with a strong base. Strong Acid– Strong Base Mixtures.

the moles of NaOH is 0.160 moles per L

18.0 mL of 0.200 M HCl is added to 25.0 mL of 0.160 M NaOH. Find the pH of the final mixture.

0.200 molmol H mol HCl 0.0180 L 0.00360 mol H

1Linitial initial

0.160 mmol OH mol NaOH 0.00400 mol OH

ol 0.0250 L

1Linitial initial

excess mol OH 0.00400 mol OH 0.00360 mol H 0.00040 mol OH

0.00040 mol OH 0.00040 mol OH

Final OH 0.0093 M0.0430 L0.0180 L 0.0250 L

pOH log OH log 0.0093 2.03 pH 14.00 pOH 14.00 2.03 11.97

Page 34: We’ll show you how to calculate the pH of a solution formed by mixing a strong acid with a strong base. Strong Acid– Strong Base Mixtures.

times 0.0250 L

18.0 mL of 0.200 M HCl is added to 25.0 mL of 0.160 M NaOH. Find the pH of the final mixture.

0.200 molmol H mol HCl 0.0180 L 0.00360 mol H

1Linitial initial

0.160 mol mol OH mol NaOH 0.00.0250 0400 mol OH

1L

Linitial initial

excess mol OH 0.00400 mol OH 0.00360 mol H 0.00040 mol OH

0.00040 mol OH 0.00040 mol OH

Final OH 0.0093 M0.0430 L0.0180 L 0.0250 L

pOH log OH log 0.0093 2.03 pH 14.00 pOH 14.00 2.03 11.97

Page 35: We’ll show you how to calculate the pH of a solution formed by mixing a strong acid with a strong base. Strong Acid– Strong Base Mixtures.

which is 0.00400 moles. So the initial moles of OH minus added is 0.00400 mol.

18.0 mL of 0.200 M HCl is added to 25.0 mL of 0.160 M NaOH. Find the pH of the final mixture.

0.200 molmol H mol HCl 0.0180 L 0.00360 mol H

1Linitial initial

0.160 m0.00400 mol OH

ol mol OH mol NaOH 0.0250 L

1Linitial initial

excess mol OH 0.00400 mol OH 0.00360 mol H 0.00040 mol OH

0.00040 mol OH 0.00040 mol OH

Final OH 0.0093 M0.0430 L0.0180 L 0.0250 L

pOH log OH log 0.0093 2.03 pH 14.00 pOH 14.00 2.03 11.97

Page 36: We’ll show you how to calculate the pH of a solution formed by mixing a strong acid with a strong base. Strong Acid– Strong Base Mixtures.

Notice that both the moles of H+ and OH minus are expressed to 3 significant figures, which is consistent with the given data

18.0 mL of 0.200 M HCl is added to 25.0 mL of 0.160 M NaOH. Find the pH of the final mixture.

0.200 molmol H mol HCl 0.0180 L 0.00 mol H

1L360initial initial

0.160 mol mol OH mol NaOH 0.0250 L 0.00 mol OH

1L400 initial initial

excess mol OH 0.00400 mol OH 0.00360 mol H 0.00040 mol OH

0.00040 mol OH 0.00040 mol OH

Final OH 0.0093 M0.0430 L0.0180 L 0.0250 L

pOH log OH log 0.0093 2.03 pH 14.00 pOH 14.00 2.03 11.97

Page 37: We’ll show you how to calculate the pH of a solution formed by mixing a strong acid with a strong base. Strong Acid– Strong Base Mixtures.

Also notice that both of these values have 5 decimal places. Next we check whether moles of H+ or moles of OH minus is in excess

18.0 mL of 0.200 M HCl is added to 25.0 mL of 0.160 M NaOH. Find the pH of the final mixture.

0.200 molmol H mol HCl 0.0180 L 0. mol H

10

L0360initial initial

0.160 m0

ol mol OH mol NaOH 0.0250 L 0. mol OH

1L0400 initial initial

excess mol OH 0.00400 mol OH 0.00360 mol H 0.00040 mol OH

0.00040 mol OH 0.00040 mol OH

Final OH 0.0093 M0.0430 L0.0180 L 0.0250 L

pOH log OH log 0.0093 2.03 pH 14.00 pOH 14.00 2.03 11.97

Page 38: We’ll show you how to calculate the pH of a solution formed by mixing a strong acid with a strong base. Strong Acid– Strong Base Mixtures.

0.00400 moles is greater than 0.00360 moles, so OH minus is in excess.

18.0 mL of 0.200 M HCl is added to 25.0 mL of 0.160 M NaOH. Find the pH of the final mixture.

0.200 molmol H mol HCl 0.0180 L 0.00360 mol H

1Linitial initial

0.160 m0.00400 mol OH

ol mol OH mol NaOH 0.0250 L

1Linitial initial

excess mol OH 0.00400 mol OH 0.00360 mol H 0.00040 mol OH

0.00040 mol OH 0.00040 mol OH

Final OH 0.0093 M0.0430 L0.0180 L 0.0250 L

pOH log OH log 0.0093 2.03 pH 14.00 pOH 14.00 2.03 11.97

OH– is in Excess

Page 39: We’ll show you how to calculate the pH of a solution formed by mixing a strong acid with a strong base. Strong Acid– Strong Base Mixtures.

Now, 0.00360 moles of H+ will neutralize 0.0036 moles of OH minus.

18.0 mL of 0.200 M HCl is added to 25.0 mL of 0.160 M NaOH. Find the pH of the final mixture.

0.200 m0.00360 mol H

olmol H mol HCl 0.0180 L

1Linitial initial

0.160 mol mol OH mol NaOH 0.0250 L 0.00400 mol OH

1Linitial initial

excess mol OH 0.00400 mol OH 0.00360 mol H 0.00040 mol OH

0.00040 mol OH 0.00040 mol OH

Final OH 0.0093 M0.0430 L0.0180 L 0.0250 L

pOH log OH log 0.0093 2.03 pH 14.00 pOH 14.00 2.03 11.97

Will neutralize 0.00360 mol OH–

Page 40: We’ll show you how to calculate the pH of a solution formed by mixing a strong acid with a strong base. Strong Acid– Strong Base Mixtures.

So the excess moles of OH minus left over will be

18.0 mL of 0.200 M HCl is added to 25.0 mL of 0.160 M NaOH. Find the pH of the final mixture.

0.200 molmol H mol HCl 0.0180 L 0.00360 mol H

1Linitial initial

0.160 mol mol OH mol NaOH 0.0250 L 0.00400 mol OH

1Linitial initial

0.00400 mol OH 0.00360excess m mol H 0.00040 mol Ol HOH o

0.00040 mol OH 0.00040 mol OH

Final OH 0.0093 M0.0430 L0.0180 L 0.0250 L

pOH log OH log 0.0093 2.03 pH 14.00 pOH 14.00 2.03 11.97

Will neutralize 0.00360 mol OH–

Page 41: We’ll show you how to calculate the pH of a solution formed by mixing a strong acid with a strong base. Strong Acid– Strong Base Mixtures.

The initial 0.00400 moles

18.0 mL of 0.200 M HCl is added to 25.0 mL of 0.160 M NaOH. Find the pH of the final mixture.

0.200 molmol H mol HCl 0.0180 L 0.00360 mol H

1Linitial initial

0.160 m0.00400 mol OH

ol mol OH mol NaOH 0.0250 L

1Linitial initial

0.00400 mol Oexcess mol OH 0.00360 mol H 0.00040 mol OHH

0.00040 mol OH 0.00040 mol OH

Final OH 0.0093 M0.0430 L0.0180 L 0.0250 L

pOH log OH log 0.0093 2.03 pH 14.00 pOH 14.00 2.03 11.97

Page 42: We’ll show you how to calculate the pH of a solution formed by mixing a strong acid with a strong base. Strong Acid– Strong Base Mixtures.

minus the 0.00360 moles of H+ that was able to neutralize 0.00360 moles of OH minus.

18.0 mL of 0.200 M HCl is added to 25.0 mL of 0.160 M NaOH. Find the pH of the final mixture.

0.200 m0.00360 mol H

olmol H mol HCl 0.0180 L

1Linitial initial

excess mol OH 0.00400 mol O 0.00360 moH 0.00040 mol Hl H O

0.00040 mol OH 0.00040 mol OH

Final OH 0.0093 M0.0430 L0.0180 L 0.0250 L

pOH log OH log 0.0093 2.03 pH 14.00 pOH 14.00 2.03 11.97

0.160 mol mol OH mol NaOH 0.0250 L 0.00400 mol OH

1Linitial initial

Page 43: We’ll show you how to calculate the pH of a solution formed by mixing a strong acid with a strong base. Strong Acid– Strong Base Mixtures.

Which is equal to 0.00040 moles. And because OH minus is the ion in excess, this is 0.00040 moles of OH minus.

18.0 mL of 0.200 M HCl is added to 25.0 mL of 0.160 M NaOH. Find the pH of the final mixture.

0.200 molmol H mol HCl 0.0180 L 0.00360 mol H

1Linitial initial

excess mol OH 0.00400 mol OH 0.00360 mo 0.00040 mol OHl H

0.00040 mol OH 0.00040 mol OH

Final OH 0.0093 M0.0430 L0.0180 L 0.0250 L

pOH log OH log 0.0093 2.03 pH 14.00 pOH 14.00 2.03 11.97

0.160 mol mol OH mol NaOH 0.0250 L 0.00400 mol OH

1Linitial initial

Page 44: We’ll show you how to calculate the pH of a solution formed by mixing a strong acid with a strong base. Strong Acid– Strong Base Mixtures.

Because the numbers that were subtracted to get this both have 5 decimal places, the value 0.00040 must also have 5 decimal places.

18.0 mL of 0.200 M HCl is added to 25.0 mL of 0.160 M NaOH. Find the pH of the final mixture.

0.200 molmol H mol HCl 0.0180 L 0.00360 mol H

1Linitial initial

excess mol OH mol O0.00400 0.00360H mol H mol 0.00 OH040

0.00040 mol OH 0.00040 mol OH

Final OH 0.0093 M0.0430 L0.0180 L 0.0250 L

pOH log OH log 0.0093 2.03 pH 14.00 pOH 14.00 2.03 11.97

0.160 mol mol OH mol NaOH 0.0250 L 0.00400 mol OH

1Linitial initial

5 decimal places

5 decimal places

5 decimal places

Page 45: We’ll show you how to calculate the pH of a solution formed by mixing a strong acid with a strong base. Strong Acid– Strong Base Mixtures.

But notice this value, expressed to 5 decimal places, has only 2 significant figures. Zero’s to the left of the first non-zero digit are not significant. So our final answer cannot have more than 2 significant figures.

18.0 mL of 0.200 M HCl is added to 25.0 mL of 0.160 M NaOH. Find the pH of the final mixture.

0.200 molmol H mol HCl 0.0180 L 0.00360 mol H

1Linitial initial

excess mol OH 0.00400 mol OH 0.00360 mol H 0.000 mol OH40

0.00040 mol OH 0.00040 mol OH

Final OH 0.0093 M0.0430 L0.0180 L 0.0250 L

pOH log OH log 0.0093 2.03 pH 14.00 pOH 14.00 2.03 11.97

0.160 mol mol OH mol NaOH 0.0250 L 0.00400 mol OH

1Linitial initial

2 significant figures

Page 46: We’ll show you how to calculate the pH of a solution formed by mixing a strong acid with a strong base. Strong Acid– Strong Base Mixtures.

Because OH minus is the ion in excess, we now calculate the concentration of OH minus in the final mixture.

18.0 mL of 0.200 M HCl is added to 25.0 mL of 0.160 M NaOH. Find the pH of the final mixture.

0.200 molmol H mol HCl 0.0180 L 0.00360 mol H

1Linitial initial

excess mol OH 0.00400 mol OH 0.00360 mol H 0.00040 mol OH

0.00040 mol OH 0.00040 mol OH

0.0093 M0.0430 L0.0180 L 0.

Final O0250 L

H

pOH log OH log 0.0093 2.03 pH 14.00 pOH 14.00 2.03 11.97

0.160 mol mol OH mol NaOH 0.0250 L 0.00400 mol OH

1Linitial initial

Page 47: We’ll show you how to calculate the pH of a solution formed by mixing a strong acid with a strong base. Strong Acid– Strong Base Mixtures.

Concentration of OH minus is moles of OH minus over the total volume in Litres. We have 0.00040 moles of OH minus

18.0 mL of 0.200 M HCl is added to 25.0 mL of 0.160 M NaOH. Find the pH of the final mixture.

0.200 molmol H mol HCl 0.0180 L 0.00360 mol H

1Linitial initial

excess mol OH 0.00400 mol OH 0.00360 mo 0.00040 mol OHl H

0.00040 mol OH

Final OH 0.0093 M0.0430 L0.0180 L 0.

0.00040 m

0250

ol OH

L

pOH log OH log 0.0093 2.03 pH 14.00 pOH 14.00 2.03 11.97

0.160 mol mol OH mol NaOH 0.0250 L 0.00400 mol OH

1Linitial initial

Page 48: We’ll show you how to calculate the pH of a solution formed by mixing a strong acid with a strong base. Strong Acid– Strong Base Mixtures.

And the total volume of the mixture is 0.0180 L of the HCl solution

18.0 mL of 0.200 M HCl is added to 25.0 mL of 0.160 M NaOH. Find the pH of the final mixture.

0.200 molmol H mol HCl 0.00360 mol H

10.0180

LLinitial initial

0.0180 L 0.0250

0.00040 mol OH 0.00040 mol OHFinal OH 0.0093 M

0.0430 LL

pOH log OH log 0.0093 2.03 pH 14.00 pOH 14.00 2.03 11.97

0.160 mol mol OH mol NaOH 0.0250 L 0.00400 mol OH

1Linitial initial

excess mol OH 0.00400 mol OH 0.00360 mol H 0.00040 mol OH

Page 49: We’ll show you how to calculate the pH of a solution formed by mixing a strong acid with a strong base. Strong Acid– Strong Base Mixtures.

plus 0.0250 L of NaOH solution.

18.0 mL of 0.200 M HCl is added to 25.0 mL of 0.160 M NaOH. Find the pH of the final mixture.

0.200 molmol H mol HCl 0.0180 L 0.00360 mol H

1Linitial initial

0.0180 L 0.0250

0.00040 mol OH 0.00040 mol OHFinal OH 0.0093 M

0.0430 LL

pOH log OH log 0.0093 2.03 pH 14.00 pOH 14.00 2.03 11.97

0.160 mol mol OH mol NaOH 0.00.0250 0400 mol OH

1L

Linitial initial

excess mol OH 0.00400 mol OH 0.00360 mol H 0.00040 mol OH

Page 50: We’ll show you how to calculate the pH of a solution formed by mixing a strong acid with a strong base. Strong Acid– Strong Base Mixtures.

Or 0.0430 L. So the final concentration of OH minus is 0.00040 moles divided by 0.0430 L,

18.0 mL of 0.200 M HCl is added to 25.0 mL of 0.160 M NaOH. Find the pH of the final mixture.

0.200 molmol H mol HCl 0.0180 L 0.00360 mol H

1Linitial initial

0.00040 mol OH

Final OH 0.0093 M0.0180 L 0.

0.00040 mol OH

0.0430 L0250 L

pOH log OH log 0.0093 2.03 pH 14.00 pOH 14.00 2.03 11.97

0.160 mol mol OH mol NaOH 0.0250 L 0.00400 mol OH

1Linitial initial

excess mol OH 0.00400 mol OH 0.00360 mol H 0.00040 mol OH

Page 51: We’ll show you how to calculate the pH of a solution formed by mixing a strong acid with a strong base. Strong Acid– Strong Base Mixtures.

Which is 0.0093 M.

18.0 mL of 0.200 M HCl is added to 25.0 mL of 0.160 M NaOH. Find the pH of the final mixture.

0.200 molmol H mol HCl 0.0180 L 0.00360 mol H

1Linitial initial

0.00040 mol OH 0.00040 mol OH

Final OH0.0430 L0.0180 L 0.

0.0093 M0250 L

pOH log OH log 0.0093 2.03 pH 14.00 pOH 14.00 2.03 11.97

0.160 mol mol OH mol NaOH 0.0250 L 0.00400 mol OH

1Linitial initial

excess mol OH 0.00400 mol OH 0.00360 mol H 0.00040 mol OH

Page 52: We’ll show you how to calculate the pH of a solution formed by mixing a strong acid with a strong base. Strong Acid– Strong Base Mixtures.

We want to find the pH of the mixture, but since we have the OH minus concentration, we start by calculating the pOH, which is the negative log of the hydroxide ion concentration

18.0 mL of 0.200 M HCl is added to 25.0 mL of 0.160 M NaOH. Find the pH of the final mixture.

0.200 molmol H mol HCl 0.0180 L 0.00360 mol H

1Linitial initial

0.00040 mol OH 0.00040 mol OH

Final OH 0.0093 M0.0430 L0.0180 L 0.0250 L

log 0.0093 2.pOH log H 03O pH 14.00 pOH 14.00 2.03 11.97

0.160 mol mol OH mol NaOH 0.0250 L 0.00400 mol OH

1Linitial initial

excess mol OH 0.00400 mol OH 0.00360 mol H 0.00040 mol OH

Page 53: We’ll show you how to calculate the pH of a solution formed by mixing a strong acid with a strong base. Strong Acid– Strong Base Mixtures.

Or the negative log of 0.0093

18.0 mL of 0.200 M HCl is added to 25.0 mL of 0.160 M NaOH. Find the pH of the final mixture.

0.200 molmol H mol HCl 0.0180 L 0.00360 mol H

1Linitial initial

0.00040 mol OH 0.00040 mol OH

Final OH M0.0430 L0.0180 L 0.0

0.0025 L

90

3

log 0.00pOH log OH 2.093 3 pH 14.00 pOH 14.00 2.03 11.97

0.160 mol mol OH mol NaOH 0.0250 L 0.00400 mol OH

1Linitial initial

excess mol OH 0.00400 mol OH 0.00360 mol H 0.00040 mol OH

Page 54: We’ll show you how to calculate the pH of a solution formed by mixing a strong acid with a strong base. Strong Acid– Strong Base Mixtures.

Which is 2.03. Take a moment to check this on your calculator. Remember, 2 decimal places in a pOH value is 2 significant figures.

18.0 mL of 0.200 M HCl is added to 25.0 mL of 0.160 M NaOH. Find the pH of the final mixture.

0.200 molmol H mol HCl 0.0180 L 0.00360 mol H

1Linitial initial

0.00040 mol OH 0.00040 mol OH

Final OH 0.0093 M0.0430 L0.0180 L 0.0250 L

pOH log OH log 0.00 2.0393 pH 14.00 pOH 14.00 2.03 11.97

0.160 mol mol OH mol NaOH 0.0250 L 0.00400 mol OH

1Linitial initial

excess mol OH 0.00400 mol OH 0.00360 mol H 0.00040 mol OH

Page 55: We’ll show you how to calculate the pH of a solution formed by mixing a strong acid with a strong base. Strong Acid– Strong Base Mixtures.

In the last step, we’ll calculate the pH

18.0 mL of 0.200 M HCl is added to 25.0 mL of 0.160 M NaOH. Find the pH of the final mixture.

0.200 molmol H mol HCl 0.0180 L 0.00360 mol H

1Linitial initial

0.00040 mol OH 0.00040 mol OH

Final OH 0.0093 M0.0430 L0.0180 L 0.0250 L

pOH log OH log 0.0093 2.03 14.0pH 14 0 2.03 11.0 70 p 9OH .

0.160 mol mol OH mol NaOH 0.0250 L 0.00400 mol OH

1Linitial initial

excess mol OH 0.00400 mol OH 0.00360 mol H 0.00040 mol OH

Page 56: We’ll show you how to calculate the pH of a solution formed by mixing a strong acid with a strong base. Strong Acid– Strong Base Mixtures.

Which is 14 minus the pOH

18.0 mL of 0.200 M HCl is added to 25.0 mL of 0.160 M NaOH. Find the pH of the final mixture.

0.200 molmol H mol HCl 0.0180 L 0.00360 mol H

1Linitial initial

0.00040 mol OH 0.00040 mol OH

Final OH 0.0093 M0.0430 L0.0180 L 0.0250 L

pOH log OH log 0.0093 2.03 pH 14.0014.00 2.03 11.97pOH

0.160 mol mol OH mol NaOH 0.0250 L 0.00400 mol OH

1Linitial initial

excess mol OH 0.00400 mol OH 0.00360 mol H 0.00040 mol OH

Page 57: We’ll show you how to calculate the pH of a solution formed by mixing a strong acid with a strong base. Strong Acid– Strong Base Mixtures.

Or 14 minus the 2.03

18.0 mL of 0.200 M HCl is added to 25.0 mL of 0.160 M NaOH. Find the pH of the final mixture.

0.200 molmol H mol HCl 0.0180 L 0.00360 mol H

1Linitial initial

0.00040 mol OH 0.00040 mol OH

Final OH 0.0093 M0.0430 L0.0180 L 0.0250 L

pOH log OH log 0.00 2.0393 14.0pH 14.00 pOH 11.0 92.03 7

0.160 mol mol OH mol NaOH 0.0250 L 0.00400 mol OH

1Linitial initial

excess mol OH 0.00400 mol OH 0.00360 mol H 0.00040 mol OH

Page 58: We’ll show you how to calculate the pH of a solution formed by mixing a strong acid with a strong base. Strong Acid– Strong Base Mixtures.

Which is 11.97.

0.200 molmol H mol HCl 0.0180 L 0.00360 mol H

1Linitial initial

0.00040 mol OH 0.00040 mol OH

Final OH 0.0093 M0.0430 L0.0180 L 0.0250 L

pOH log OH log 0.0093 2.03 14.00 pOH 14.00 2.03pH 11.97

0.160 mol mol OH mol NaOH 0.0250 L 0.00400 mol OH

1Linitial initial

excess mol OH 0.00400 mol OH 0.00360 mol H 0.00040 mol OH

pH of the final mixture

18.0 mL of 0.200 M HCl is added to 25.0 mL of 0.160 M NaOH. Find the pH of the final mixture.

Page 59: We’ll show you how to calculate the pH of a solution formed by mixing a strong acid with a strong base. Strong Acid– Strong Base Mixtures.

So we’ve now answered what we set out to answer. The pH of the final mixture is 11.97. This is expressed to 2 decimal places, which in a pH value, is 2 significant figures.

0.200 molmol H mol HCl 0.0180 L 0.00360 mol H

1Linitial initial

0.00040 mol OH 0.00040 mol OH

Final OH 0.0093 M0.0430 L0.0180 L 0.0250 L

pOH log OH log 0.0093 2.03 14.00 pOH 14.00 2.03pH 11.97

0.160 mol mol OH mol NaOH 0.0250 L 0.00400 mol OH

1Linitial initial

excess mol OH 0.00400 mol OH 0.00360 mol H 0.00040 mol OH

pH of the final mixture

18.0 mL of 0.200 M HCl is added to 25.0 mL of 0.160 M NaOH. Find the pH of the final mixture.


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Here we’ll go over an example where a strong acid is mixed with a strong base, and we calculate the pH of the final mixture. Strong Acid–Strong Base Mixture.

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