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b. The half-life of W-161 is 400 ms (milliseconds). Calculate the amount of time required for 100 g of W-161 to decay to 12.5 g of W-161.

b. The half-life of W-161 is 400 ms (milliseconds). Calculate the amount of time required for 100 g of W-161 to decay to 12.5 g of W-161.

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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Please answer number 5 letter B only
a. Report the group number and common name for the group J will be part of. b. Report the period J will be part of. C. Is Ja metal, non-metal, or metalloid? 4. Continue considering the new element Jessium, J, atomic number 119 and mass number 252 to answer the following questions about periodic trends. a. Will J be larger or smaller then Chlorine, Cl? b. Will J have a larger or smaller ionization energy then Lithium, Li? 5. Tungston-161 (W-161) is a radioactive isotope that emits alpha particles. the following questions about W-161: a. Write the nuclear decay equation for W-161 and predict the isotope it decays to. b. The half-life of W-161 is 400 ms (milliseconds). Calculate the amount of time required for 100 g of W-161 to decay to 12.5 g of W-161.
Transcribed Image Text:a. Report the group number and common name for the group J will be part of. b. Report the period J will be part of. C. Is Ja metal, non-metal, or metalloid? 4. Continue considering the new element Jessium, J, atomic number 119 and mass number 252 to answer the following questions about periodic trends. a. Will J be larger or smaller then Chlorine, Cl? b. Will J have a larger or smaller ionization energy then Lithium, Li? 5. Tungston-161 (W-161) is a radioactive isotope that emits alpha particles. the following questions about W-161: a. Write the nuclear decay equation for W-161 and predict the isotope it decays to. b. The half-life of W-161 is 400 ms (milliseconds). Calculate the amount of time required for 100 g of W-161 to decay to 12.5 g of W-161.
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