Quantum Mechanics Solution Manual
© Leon van Dommelen
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14.1 Fundamental Concepts
14
. Nuclei [Unfinished Draft]
Subsections
14
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1
Fundamental Concepts
14
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2
Draft: The Simplest Nuclei
14
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2
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1
Draft: The proton
14
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2
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2
Draft: The neutron
14
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2
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3
Draft: The deuteron
14
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2
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4
Draft: Property summary
14
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3
Draft: Overview of Nuclei
14
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4
Draft: Magic numbers
14
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5
Draft: Radioactivity
14
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5
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1
Draft: Half-life and decay rate
14
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5
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2
Draft: More than one decay process
14
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5
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3
Draft: Other definitions
14
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6
Draft: Mass and energy
14
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7
Draft: Binding energy
14
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8
Draft: Nucleon separation energies
14
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9
Draft: Modeling the Deuteron
14
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10
Draft: Liquid drop model
14
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10
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1
Draft: Nuclear radius
14
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10
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2
Draft: von Weizsäcker formula
14
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10
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3
Draft: Explanation of the formula
14
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10
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4
Draft: Accuracy of the formula
14
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11
Draft: Alpha Decay
14
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11
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1
Draft: Decay mechanism
14
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11
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2
Draft: Comparison with data
14
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11
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3
Draft: Forbidden decays
14
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11
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4
Draft: Why alpha decay?
14
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12
Draft: Shell model
14
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12
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1
Draft: Average potential
14
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12
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2
Draft: Spin-orbit interaction
14
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12
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3
Draft: Example occupation levels
14
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12
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4
Draft: Shell model with pairing
14
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12
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5
Draft: Configuration mixing
14
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12
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6
Draft: Shell model failures
14
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13
Draft: Collective Structure
14
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13
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1
Draft: Classical liquid drop
14
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13
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2
Draft: Nuclear vibrations
14
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13
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3
Draft: Nonspherical nuclei
14
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13
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4
Draft: Rotational bands
14
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13
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4
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1
Draft: Basic notions in nuclear rotation
14
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13
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4
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2
Draft: Basic rotational bands
14
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13
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4
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3
Draft: Bands with intrinsic spin one-half
14
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13
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4
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4
Draft: Bands with intrinsic spin zero
14
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13
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4
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5
Draft: Even-even nuclei
14
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13
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4
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6
Draft: Nonaxial nuclei
14
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14
Draft: Fission
14
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14
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1
Draft: Basic concepts
14
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14
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2
Draft: Some basic features
14
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15
Draft: Spin Data
14
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15
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1
Draft: Even-even nuclei
14
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15
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2
Draft: Odd mass number nuclei
14
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15
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3
Draft: Odd-odd nuclei
14
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16
Draft: Parity Data
14
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16
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1
Draft: Even-even nuclei
14
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16
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2
Draft: Odd mass number nuclei
14
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16
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3
Draft: Odd-odd nuclei
14
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16
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4
Draft: Parity Summary
14
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17
Draft: Electromagnetic Moments
14
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17
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1
Draft: Classical description
14
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17
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1
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1
Draft: Magnetic dipole moment
14
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17
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1
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2
Draft: Electric quadrupole moment
14
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17
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2
Draft: Quantum description
14
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17
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2
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1
Draft: Magnetic dipole moment
14
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17
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2
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2
Draft: Electric quadrupole moment
14
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17
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2
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3
Draft: Shell model values
14
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17
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2
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4
Draft: Values for deformed nuclei
14
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17
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3
Draft: Magnetic moment data
14
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17
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4
Draft: Quadrupole moment data
14
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18
Draft: Isospin
14
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18
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1
Draft: Basic ideas
14
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18
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2
Draft: Heavier nuclei
14
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18
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3
Draft: Additional points
14
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18
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4
Draft: Why does this work?
14
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19
Draft: Beta decay
14
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19
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1
Draft: Introduction
14
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19
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2
Draft: Energetics Data
14
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19
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3
Draft: Beta decay and magic numbers
14
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19
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4
Draft: Von Weizsäcker approximation
14
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19
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5
Draft: Kinetic Energies
14
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19
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6
Draft: Forbidden decays
14
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19
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6
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1
Draft: Allowed decays
14
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19
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6
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2
Draft: Forbidden decays allowed
14
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19
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6
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3
Draft: The energy effect
14
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19
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7
Draft: Data and Fermi theory
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19
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8
Draft: Parity violation
14
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20
Draft: Gamma Decay
14
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20
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1
Draft: Energetics
14
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20
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2
Draft: Forbidden decays
14
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20
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3
Draft: Isomers
14
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20
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4
Draft: Weisskopf estimates
14
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20
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5
Draft: Comparison with data
14
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20
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6
Draft: Internal conversion
Next:
14.1 Fundamental Concepts
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