Fact: Zn-63 is unstable and radioactive. Is its n/p ratio too high or too low? Which process could lead to stability? (Make sure that both parts of the answer are correct.) (A) Its n/p ratio is too high. It could attain stability by beta emission. (B) Its n/p ratio is too high. It could attain stability by electron capture. Its n/p ratio is too low. It could attain stability by beta emission. (D) Its n/p ratio is too low. It could attain stability by either electron capture or positron emission.
Fact: Zn-63 is unstable and radioactive. Is its n/p ratio too high or too low? Which process could lead to stability? (Make sure that both parts of the answer are correct.) (A) Its n/p ratio is too high. It could attain stability by beta emission. (B) Its n/p ratio is too high. It could attain stability by electron capture. Its n/p ratio is too low. It could attain stability by beta emission. (D) Its n/p ratio is too low. It could attain stability by either electron capture or positron emission.
Chemistry
10th Edition
ISBN:9781305957404
Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
Publisher:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
Chapter19: The Nucleus: A Chemist's View
Section: Chapter Questions
Problem 6RQ
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Transcribed Image Text:Fact: Zn-63 is unstable and radioactive. Is its n/p ratio too high or too low? Which process could lead to stability? (Make sure that both parts of
the answer are correct.)
(A) Its n/p ratio is too high. It could attain stability by beta emission.
(B) Its n/p ratio is too high. It could attain stability by electron capture.
Its n/p ratio is too low. It could attain stability by beta emission.
(D) Its n/p ratio is too low. It could attain stability by either electron capture or positron emission.
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