A fission reactor in the process of being decommissioned continues to generate 27.3 MW of power from radioactive byproducts, months after being shut down. Assuming each emission delivers 1.00 MeV of energy, what is the activity in becquerels of the reactor at this time? 1.71e19 x Knowing that power is energy per unit time, and knowing the energy per reaction, how are these related to activity, which is the number of reactions per unit time? Ba

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A fission reactor in the process of being decommissioned continues to generate27,3MWof power from radioactive byproducts, menths after being shiut down. Assuming each emission delivers1.00MaVof energy, what is the activity in becquerels of the reactor at this time? Knowing that power is anergy per unit time, and knowing the energy per reaction, how are these related to actwity, which is the number of reactions per unit time? 89
A fission reactor in the process of being decommissioned continues to generate 27.3 MW of power from radioactive byproducts, months after being shut down. Assuming
each emission delivers 1.00 MeV of energy, what is the activity in becquerels of the reactor at this time?
1.71e19
x
Knowing that power is energy per unit time, and knowing the energy per reaction, how are these related to activity, which is the number of reactions per unit time? Bq
Transcribed Image Text:A fission reactor in the process of being decommissioned continues to generate 27.3 MW of power from radioactive byproducts, months after being shut down. Assuming each emission delivers 1.00 MeV of energy, what is the activity in becquerels of the reactor at this time? 1.71e19 x Knowing that power is energy per unit time, and knowing the energy per reaction, how are these related to activity, which is the number of reactions per unit time? Bq
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