*Au beta decay into 198Hg leaving it at excited states at 0.412 and 1.088 MeV. Using the nuclide chart, look for the probability of getting 198Hg at the different energy levels, including the ground state, and find the energies of the different gamma rays.
*Au beta decay into 198Hg leaving it at excited states at 0.412 and 1.088 MeV. Using the nuclide chart, look for the probability of getting 198Hg at the different energy levels, including the ground state, and find the energies of the different gamma rays.
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![Au beta decay into 198H leaving it at excited states at 0.412 and 1.088 MeV. Using the nuclide chart, look for the probability of getting
198Hg at the different energy levels, including the ground state, and find the energies of the different gamma rays.
198](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fef8e7aeb-1df6-4e89-aa2c-22034ae8f630%2Fc07ded1d-38b5-42e5-b1a2-b8cae647ab0c%2Fo1bvj8n_processed.png&w=3840&q=75)
Transcribed Image Text:Au beta decay into 198H leaving it at excited states at 0.412 and 1.088 MeV. Using the nuclide chart, look for the probability of getting
198Hg at the different energy levels, including the ground state, and find the energies of the different gamma rays.
198
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