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Problem 2: There is a substance of linear absorption coefficient µ. (a) Obtain a simple relation to give the sample thickness 't' required to reduce the amount of transmitted X-ray intensity by half. - (b) Calculate also the corresponding thickness of Fe-17 mass % Cr alloy (density D 7:76 x 10 g/m³) for Mo-Ka radiation, using the relation obtained in part (a). [Given: The values of mass absorption coefficients of Fe and Cr for the Mo-K, radiation are 37.6

Problem 2: There is a substance of linear absorption coefficient µ. (a) Obtain a simple relation to give the sample thickness 't' required to reduce the amount of transmitted X-ray intensity by half. - (b) Calculate also the corresponding thickness of Fe-17 mass % Cr alloy (density D 7:76 x 10 g/m³) for Mo-Ka radiation, using the relation obtained in part (a). [Given: The values of mass absorption coefficients of Fe and Cr for the Mo-K, radiation are 37.6

Chemistry
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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Problem 2: There is a substance of linear absorption coefficient u. 1 (a) Obtain a simple relation to give the sample thickness ' required to reduce the amount of transmitted X-ray intensity by half. (b) Calculate also the corresponding thickness of Fe-17 mass % Cr alloy (density D = 7:76 x 10° g/m) for Mo-Ka radiation, using the relation obtained in part (a). [Given: The values of mass absorption coefficients of Fe and Cr for the Mo-K, radiation are 37.6 and 29.9 cm/g, respectively]
Transcribed Image Text:Problem 2: There is a substance of linear absorption coefficient u. 1 (a) Obtain a simple relation to give the sample thickness ' required to reduce the amount of transmitted X-ray intensity by half. (b) Calculate also the corresponding thickness of Fe-17 mass % Cr alloy (density D = 7:76 x 10° g/m) for Mo-Ka radiation, using the relation obtained in part (a). [Given: The values of mass absorption coefficients of Fe and Cr for the Mo-K, radiation are 37.6 and 29.9 cm/g, respectively]
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