Nuclear Physkcs: Answer the following a. The diagrams below represent two different nuclear processes. Which represents the process that produces energy in the sun? Diagram I Diagram 2 ENERGY ENERGY b. A student has an 80 g sample of a radioactive material that has a half-life of 20 seconds, How much material will he have left after one minute? c. Given the perlodic table below, write a beta decay equation for the transmutation of a radioactive isotope of Rutherfordium, which has 104 protons and 183 neutrons.
Nuclear Physkcs: Answer the following a. The diagrams below represent two different nuclear processes. Which represents the process that produces energy in the sun? Diagram I Diagram 2 ENERGY ENERGY b. A student has an 80 g sample of a radioactive material that has a half-life of 20 seconds, How much material will he have left after one minute? c. Given the perlodic table below, write a beta decay equation for the transmutation of a radioactive isotope of Rutherfordium, which has 104 protons and 183 neutrons.
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Transcribed Image Text:b. Astudent has an 80 g sample of a radioactive material that has a half-life of
20 seconds. How much material will he have left after one minute?
c. Given the periodic table below, write a beta decay equation for the
transmutation of a radioactive isotope of Rutherfordium, which has 104 protons
and 183 neutrons.
Periodic Table of ElementsS
15 18 17
Metals
Transcribed Image Text:Nuclear Physkcs: Answer the following
a. The diagrams below represent two different nuclear processes. Which represents
the process that produces energy in the sun?
Diagram 1
Diagram 2
ENERGY
ENERGY
b. A student has an 80 g sample of a radioactive material that has a half-life of
20 seconds. How much material will he have left after one minute?
c. Given the perlodic table below, write a beta decay equation for the
transmutation of a radioactive isotope of Rutherfordlum, which has 104 protons
and 183 neutrons.
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