 |
| 1 . |
|
Which one of the conjugate bases of the following Brønsted-Lowry acids is incorrect? Online Text [Hint]
|
|
| 2 . |
|
Designate the conjugate Brønsted-Lowry acid for each of the following bases: (i) NH3 (ii) CN- (iii) NH2- Online Text [Hint]
|
|
| 3 . |
|
Which one of the conjugate bases of the following Brønsted-Lowry acids is correct? Online Text [Hint]
|
|
| 4 . |
|
Designate the conjugate Brønsted-Lowry base for each of the following acids: (i) H2CO3 (ii) HNO3 (iii) H+(aq) Online Text [Hint]
|
|
| 5 . |
|
Which of the following pairs of species are conjugate acid-base pairs? Online Text [Hint]
|
|
| 6 . |
|
Which one of the following could not be both a Brønsted-Lowry acid and base? Online Text [Hint]
|
|
| 7 . |
|
Which one of the following can be both a Brønsted-Lowry acid and a base? Online Text [Hint]
|
|
| 8 . |
|
What is the conjugate base of OH-? Online Text [Hint]
|
|
| 9 . |
|
What is the concentration of hydronium ions in a solution with a hydroxide-ion concentration of 2.31 x 10-4 M at 25°C? Online Text [Hint]
|
|
| 10 . |
|
What is the [OH-] in an aqueous solution of orange juice with [H+] = 3.4 x 10-4 M at 25°C? Online Text [Hint]
|
|
| 11 . |
|
At normal body temperature, 37°C, Kw = 2.4 x 10-14. Calculate [H+] and [OH-] for a neutral solution at this temperature. Online Text [Hint]
|
|
| 12 . |
|
At normal body temperature, 37°C, Kw = 2.4 x 10-14. Calculate [H+] if [OH-] = 1.3 x 10-9 M at this temperature. Online Text [Hint]
|
|
|
Answer choices in this exercise are randomized and will appear in a different order each time the page is loaded.
|
