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45 Cards in this Set
- Front
- Back
- 3rd side (hint)
1 amu in kg |
1.66 x 10e-27 kg |
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How many molecules in a g |
Avogadro's number/compound amu |
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How many amu in 1 g? |
Avogadro's number amu |
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Relativistic mass |
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Momentum |
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Work |
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Work in electric field |
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Potential energy |
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Position |
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1 amu in energy |
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eV to J |
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Charge of an electron |
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Force in a magnet |
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Coulomb force |
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Gravitational force |
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Rest mass of e, proton, and neutron in MeV. An electron is what fraction of a proton? |
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Diameters of particles |
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What are the fundamental forces? What are their strengths? |
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What are the quantum numbers |
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How does strong force differ between particles? |
It doesnt |
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Auger electrons are poly or monoenergetic? |
Monoenergetic |
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Weak force acts on whatm |
Leptons like electrons, mukns, and neutrinos. |
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When are characteristic stays most probable v auger electrons? |
Z > 31 |
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What is deuterium v deuteron? |
Deuteron is nucleus of deuterium? |
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What element h is s highest binding energy per nucleon |
Iron |
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What happens if z > 20? |
Ratio of neutrons tree o protons is greater than 1 |
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Negatron equation with decay diagram |
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Positron emission equation and decay diagram |
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What processes compete to increase neutron to proton ratio |
Electron capture and positron emission |
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Electron capture equation and decay diagram |
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Isobaric decay processes are |
Negatron, positron, electron capture |
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What is internal conversion |
Orbital electron is emitted. |
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Specific activity |
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Average life |
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When is there no equilibrium |
Daughter has a longer half life and smaller decay constant |
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Secular equilibrium |
Daughter has a much shorter half life and bigger decay constant |
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Transient equilibrium |
Daughter has a somewhat shorter half life and bigger decay constant |
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From which series are radium and then radon formed |
Uranium |
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Name some nondecay series isotopes |
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What is the law of detailed balance |
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How many main types of neutron capture rxns |
Neutron gamma. Neutron alpha. Neutron proton. Fission products |
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Charged particle bombardment |
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What is cross section |
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What is activation? What is activity during activation |
Becoming radioactive due to nuclear transformation caused by neutron bombardment |
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What is specific ionization |
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