Solution Found!
Answer: As discussed in the chapter, the atomic mass of
Chapter 8, Problem 126P(choose chapter or problem)
As discussed in the chapter, the atomic mass of argon is greater than that of potassium. This observation created a problem in the early development of the periodic table because it meant that argon should be placed after potassium.
(a) How was this difficulty resolved?
(b) From the following data, calculate the average atomic masses of argon and potassium: Ar-36 (35.9675 amu; 0.337 percent), Ar-38 (37.9627 amu; 0.063 percent), Ar-40 (39.9624 amu; 99.60 percent); K-39 (38.9637 amu: 93.258 percent), K-40 (39.9640 amu; 0.0117 percent), K-41 (40.9618 amu; 6.730 percent).
Questions & Answers
QUESTION:
As discussed in the chapter, the atomic mass of argon is greater than that of potassium. This observation created a problem in the early development of the periodic table because it meant that argon should be placed after potassium.
(a) How was this difficulty resolved?
(b) From the following data, calculate the average atomic masses of argon and potassium: Ar-36 (35.9675 amu; 0.337 percent), Ar-38 (37.9627 amu; 0.063 percent), Ar-40 (39.9624 amu; 99.60 percent); K-39 (38.9637 amu: 93.258 percent), K-40 (39.9640 amu; 0.0117 percent), K-41 (40.9618 amu; 6.730 percent).
ANSWER:Step 1 of 4
In the early development of the periodic table, that argon should be placed after potassium.
We need to find
(a) How this was difficulty resolved
(b) From the given data calculate the average atomic masses of argon and potassium