Acid-Base Jeopardy Template

Definitions

Buffers

pH, pOH, pKa, pKb

Titration Curve

Random

100

What is the definition of a Bronsted-Lowry acid and base?

Acid- proton donor

Base- proton acceptor

100

What does the half-equivalence point in the buffering region tell us?

pH=pKa

100

Rank the acidity (weak --> strong)

pKa: 4.56, 2.89, 9.65, 3.45, 12.2

12.2, 9.65, 4.56, 3.45, 2.89

100

How can you tell how many protons are used in a titration curve?

Count the number of equivalence points

100

If pKa is small, what does that tell us about acidity?

If Ka is small, what does that tell us?

small pKa= more acidic

small Ka= less acidic

200

What is the definition of an Arrhenius acid and base?

Acid- dissociates into H+ in water (aqueous solution)

Base- dissociates into OH- in water (aqueous solution)

200

What is the pH of a solution if on a titration curve, the pKa of the half-equivalence point is 3.67 at 100 mL?

3.67

200

Calculate the pH of 0.50 M H2S+H2O

Ka= 9.1*10^-8

3.67

200

What happens if you have a strong acid and strong base titration?

The pH is 7 at equivalence point, there are no buffer regions

200

What are the 5 strong acids?

What are some strong bases?

What makes a species strong?

Acids: HCl, HI, HBr, HNO3, H2SO4

Bases: NaOH, Ca(OH)2, KOH

300

What is the equivalence point on a titration curve?

Where the moles of the acid=moles of the base

300

A buffer solution contains 0.36 M sodium acetate (CH3COONa) and 0.45 M acetic acid (CH3COOH), Ka = 1.58*10^-5. What is the pH of this buffer solution?

4.7

300

What is the pOH is Ka is 9.45*10^-10?

4.975

300

How do you find the initial pH on a titration curve if given molarity and Ka?

multiply the Ka and the molarity, then take the square root of that value, ICE table if necessary

300

What would you use for a buffer if the pH is 5.43?

pKa: 8.57, 5.56, 6.78, 4.02

5.56

400

What is a buffer and how is it made?

A buffer is a solution that is resistant to pH change.

It is made of a weak species and its conjugate.

400

You need to produce a buffer solution that has a pH of 5.270. You already have a solution that contains 10.0 mmol (millimoles) of acetic acid. How many millimoles of sodium acetate will you need to add to this solution? The pKa of acetic acid is 4.752.

32.96 mmoles sodium acetate

400

What is the concentration of protons in:

11 M NH3 + H2O?

Kb= 1.8*10-5

Kw= 1*10^-14

7.12*10^-13

400

Consider the titration of 30.0 mL of 0.166 M of KX with 0.154 M HCl. The pKa of HX= 8.090.

(a) What is the pH of the original solution before addition of any acid?
(b) How many mL of acid are required to reach the equivalence point?
(c) What is the pH at the equivalence point?

a) 10.66

b) 32.3 mL

c) 4.59

400

What are the conjugates of these species:

CO3^2-

CH2CH2CH2COOH

NH4+

H2SO4

HCO3-

CH2CH2CH2COO-

NH3

HSO4-

500

What is a Lewis acid?

Acceptor of a lone pair of electrons

500

Make a buffer with a pKa of 6.35 that has a pH of 6.29. Its total solute concentration is 0.27 M. How many grams of each species will we need if we add 0.25 L? (A- = 20.2 g/mol, HA= 13.45 g/mol)

0.631 grams of A-

0.484 grams of HA

500

Calculate all values of pH, pOH, [H+], and [OH-] unless given for each:

pH= 5.34
pOH= 9.81
[OH-]= 2.68*10^-8
[H+]= 9.76*10^-3

8.66, 4.57*10^-6, 2.19*10^-9
4.19, 6.46*10^-5, 1.55*10^-10
6.43, 7.57, 3.73*10^-7
2.01, 11.99, 1.02*10^-12

500

You have 70 mL of 0.6M H2CO3 in its deprotonated state. You titrate it with 0.3M HI. Find pH at the half-equivalence points.

(pKa1: 6.35 pKa2: 10.32)

Draw and Label a Titration Graph

Buffering Region(s), Half-Equivalence Point(s), Equivalence Point(s), Volume, and Major Species

Will Draw on Board

500

Where are the acidic proton(s)?

HO-C-C-C-OH

C-C-C-NH3

both of the hydrogens on the oxygen

one of the hydrogens on the nitrogen