Section 55.10 Atomic Structures Bootcamp
Subsection 55.10.1 Dicovery of Electron
Problem 55.10.1. Deflection of Electron in an Electric Field.
Follow the link: Checkpoint 55.1.3.
Problem 55.10.2. Accelerating Electrons from Cathode to Anode.
Follow the link: Checkpoint 55.1.5.
Problem 55.10.3. Electron in a Crossed Electric and Magnetic Field.
Follow the link: Checkpoint 55.1.6.
Problem 55.10.4. Electron in a Crossed Electric and Magnetic Field - Find B.
Follow the link: Checkpoint 55.1.7.
Problem 55.10.5. Deviation of Path of an Electron in a Uniform Electric Field.
Follow the link: Checkpoint 55.1.8.
Problem 55.10.6. Deviation of Path of an Electron in a Crossed Electric and Magnetic Field.
Follow the link: Checkpoint 55.1.10.
Subsection 55.10.2 Charge of an Electron
Problem 55.10.7. Value of Electric Charge from Oil Drop Experiment Data.
Follow the link: Checkpoint 55.2.2.
Problem 55.10.8. Electric Charge in Electroplating.
Follow the link: Checkpoint 55.2.3.
Problem 55.10.9. Depositing Copper on Cathode.
Follow the link: Checkpoint 55.2.4.
Problem 55.10.10. Analyzing a Falling Drop in Millikan's Oil Drop Experiment.
Follow the link: Checkpoint 55.2.5.
Problem 55.10.11. Analyzing a Falling Drop in Millikan's Oil Drop Experiment - Find \(e/m\).
Follow the link: Checkpoint 55.2.6.
Problem 55.10.12. Analyzing a Falling Drop in Millikan's Oil Drop Experiment - Original Data.
Follow the link: Checkpoint 55.2.7.
Subsection 55.10.3 The Nuclear Model
Problem 55.10.13. Number of Particles Scatterred in Various Angles in a Rutherford Experiment.
Follow the link: Checkpoint 55.3.3.
Problem 55.10.14. Number of Alpha Particles Scatterred by Copper and Gold in Rutherford Experiment.
Follow the link: Checkpoint 55.3.4.
Problem 55.10.15. Scatterring in Rutherford Experiment for Double Speed.
Follow the link: Checkpoint 55.3.5.
Problem 55.10.16. Scatterring Protons in a Rutherford Experiment.
Follow the link: Checkpoint 55.3.6.
Problem 55.10.17. Can Alpha Particles from Polonium Penetrate Beryllium Nucleus?
Follow the link: Checkpoint 55.3.7.
Subsection 55.10.4 Spectroscopy of Hydrogen Atom and the Bohr Model
Problem 55.10.18. Frequency of Light Emitted in an Electronic Transition.
Follow the link: Checkpoint 55.5.1.
Problem 55.10.19. Light Emitted in a Balmer Series Transition.
Follow the link: Checkpoint 55.5.2.
Problem 55.10.20. Light Emitted in a Lyman Series Transition.
Follow the link: Checkpoint 55.5.3.
Problem 55.10.21. Avogadro Number of Atoms Arranged in a Line.
Follow the link: Checkpoint 55.5.4.
Problem 55.10.22. Transitions in Hydrogen Atom from Observed Light.
Follow the link: Checkpoint 55.5.5.
Problem 55.10.23. Bohr Formulas for Helium Ion.
Follow the link: Checkpoint 55.5.6.
Problem 55.10.24. Ionization Energy of Lithium Ion.
Follow the link: Checkpoint 55.5.7.
Problem 55.10.25. Bohr Model for Muon Replacing Electron in Hydrogen Atom.
Follow the link: Checkpoint 55.5.8.
Subsection 55.10.5 Hydrogen Atom According to Schrödinger Equation
Problem 55.10.26. Angular Momenta of an Electron in Hydrogen Atom.
Follow the link: Checkpoint 55.6.11.
Problem 55.10.27. Quantum States of Hydrogen in \(n = 4\) State.
Follow the link: Checkpoint 55.6.12.
Problem 55.10.28. Subshells of K Shell.
Follow the link: Checkpoint 55.6.13.
Problem 55.10.29. Probability of Finding Electron in a Region in H Atom.
Follow the link: Checkpoint 55.6.14.
Problem 55.10.30. Probability of Finding Electron in a Region in H Atom in an \(n=2\) State.
Follow the link: Checkpoint 55.6.15.
Problem 55.10.31. Probability of Finding Electron in a Direction in H Atom in \(n=2\) State.
Follow the link: Checkpoint 55.6.16.
Problem 55.10.32. Probability of Finding Electron in a Region in H Atom in \(n=2\) State - Ex 2.
Follow the link: Checkpoint 55.6.17.
Problem 55.10.33. Probability of Finding Electron in a Direction in H Atom in \(n=2\) State - Ex 2.
Follow the link: Checkpoint 55.6.18.
Problem 55.10.34. Energy of Transition in H Atom.
Follow the link: Checkpoint 55.6.19.
Problem 55.10.35. Energy of Transition in H Atom Ex 2.
Follow the link: Checkpoint 55.6.20.
Subsection 55.10.6 Angular Momentum and Magnetic Dipole Moment
Problem 55.10.36. Magnetic Dipole of a Charged Rotating Ring.
Follow the link: Checkpoint 55.7.7.
Problem 55.10.37. Magnetic Dipole of a Charged Rotating Disk.
Follow the link: Checkpoint 55.7.8.
Problem 55.10.38. Angular Momenta in an Excited Electronic State of Hydrogen Atom.
Follow the link: Checkpoint 55.7.9.
Problem 55.10.39. Angular Momenta in an Excited Electronic State of Hydrogen Atom Ex 2.
Follow the link: Checkpoint 55.7.10.
Problem 55.10.40. Angular Momenta and Magnetic Dipole Moments in an Excited Electronic State of Hydrogen Atom.
Follow the link: Checkpoint 55.7.11.
Problem 55.10.41. Angular Momenta and Magnetic Dipole Moments in an Excited Electronic State of Hydrogen Atom Ex 2.
Follow the link: Checkpoint 55.7.12.
Problem 55.10.42. Deflection in a Stern-Gerlach Experiment.
Follow the link: Checkpoint 55.7.13.
Problem 55.10.43. Energy Difference Between Spin Up and Down States in a Magnetic Field.
Follow the link: Checkpoint 55.7.14.
Problem 55.10.44. Energy Difference Between Quantum States in a Magnetic Field.
Follow the link: Checkpoint 55.7.15.
Problem 55.10.45. Energy Difference Between Quantum States of H Atom in a Magnetic Field.
Follow the link: Checkpoint 55.7.16.
Problem 55.10.46. Energy Difference Between Quantum States of H Atom in a Magnetic Field Ex 2.
Follow the link: Checkpoint 55.7.17.
Problem 55.10.47. Energy Difference Between Quantum States of H Atom in a Magnetic Field Ex 3.
Follow the link: Checkpoint 55.7.18.
Subsection 55.10.7 Pauli's Exclusion Principle
Problem 55.10.48. Pauli's Principle Applied to States of Particle in a Box.
Follow the link: Checkpoint 55.8.2.
Problem 55.10.49. Pauli's Principle Applied to States of Particle in a Box Ex 2.
Follow the link: Checkpoint 55.8.3.
Problem 55.10.50. Pauli's Principle Applied to States of Particle in a Box Ex 3.
Follow the link: Checkpoint 55.8.4.
Problem 55.10.51. Pauli's Principle Applied to States of Particle in a Box Ex 4.
Follow the link: Checkpoint 55.8.5.