Atom A has a larger atomic mass than atom B. Does this mean that atom A also has a larger atomic number? Explain.
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Textbook Solutions for College Physics: A Strategic Approach
Question
The uranium in the earth's crust is 0.7% 235U and 99.3% 238U.Two billion years ago, 235U comprised approximately 3%of the uranium in the earth's c rust. This te lls you somethingabout the relative half-lives of the two isotopes. Suppose youhave a sample of 235U and a sample of 238U, each with exactlythe same number of atoms.A. The sample of 235U has a higher activity.B. The sal)lple of 238U has a higher activity.C. The two samples have the same activity.
Solution
The first step in solving 30 problem number 34 trying to solve the problem we have to refer to the textbook question: The uranium in the earth's crust is 0.7% 235U and 99.3% 238U.Two billion years ago, 235U comprised approximately 3%of the uranium in the earth's c rust. This te lls you somethingabout the relative half-lives of the two isotopes. Suppose youhave a sample of 235U and a sample of 238U, each with exactlythe same number of atoms.A. The sample of 235U has a higher activity.B. The sal)lple of 238U has a higher activity.C. The two samples have the same activity.
From the textbook chapter Nuclear Physics you will find a few key concepts needed to solve this.
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