5. All the following isotopes undergo either alpha decay or beta decay. Predict which one occurs for each. You can take the average atomic mass for each element as an indicationo where the stable mass lies, and then judge whether the isotope's neutron/proton ratio ie toe l a or too low. (This is not 100% reliable in general, but will do for this question.) For one alpha decay, demonstrate numerically that the neutron/proton ratio does change in the appropriate direction. 183 1 30 a)Si 190 S187 192 c) 180W 74 I 193 d) 195Ir 184 b) 8Os 6. We saw in question 2 that positron emission is possible as a decay mode. In general, will this occur when the neutron/proton ratio is too high; or too low?
5. All the following isotopes undergo either alpha decay or beta decay. Predict which one occurs for each. You can take the average atomic mass for each element as an indicationo where the stable mass lies, and then judge whether the isotope's neutron/proton ratio ie toe l a or too low. (This is not 100% reliable in general, but will do for this question.) For one alpha decay, demonstrate numerically that the neutron/proton ratio does change in the appropriate direction. 183 1 30 a)Si 190 S187 192 c) 180W 74 I 193 d) 195Ir 184 b) 8Os 6. We saw in question 2 that positron emission is possible as a decay mode. In general, will this occur when the neutron/proton ratio is too high; or too low?
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
Chapter1: Chemical Foundations
Section: Chapter Questions
Problem 1RQ: Define and explain the differences between the following terms. a. law and theory b. theory and...
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Transcribed Image Text:5. All the following isotopes undergo either alpha decay or beta decay. Predict which one
occurs for each. You can take the average atomic mass for each element as an indicationo
where the stable mass lies, and then judge whether the isotope's neutron/proton ratio ie toe l a
or too low. (This is not 100% reliable in general, but will do for this question.) For one alpha
decay, demonstrate numerically that the neutron/proton ratio does change in the appropriate
direction.
183
1 30
a)Si
190
S187
192
c) 180W
74
I 193
d) 195Ir
184
b) 8Os
6. We saw in question 2 that positron emission is possible as a decay mode. In general, will this
occur when the neutron/proton ratio is too high; or too low?
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