Virtual and real labs for introductory physics II, : optics, modern physics, and electromagnetism [E-Book] / Daniel Erenso.
Virtual and Real Labs for Introductory Physics II: Optics, modern physics, and electromagnetism provides the lab component for Introductory Physics II taught in a remote, on-ground, or a hybrid environment with little or no instructor guidance. The book offers the opportunity to realize these purpos...
Saved in:
Full text |
|
Personal Name(s): | Erenso, Daniel, author |
Imprint: |
Bristol:
IOP Publishing,
2021
|
Physical Description: |
1 online resource (various pagings) |
Note: |
englisch |
ISBN: |
9780750337151 9780750337144 |
DOI: |
10.1088/978-0-7503-3715-1 |
Subject (LOC): |
- 4. Diffraction and gratings
- 4.1. Basic theory
- 4.2. Virtual lab I : two slits
- 4.3. Virtual lab II : circular aperture
- 4.4. Real lab : diffraction grating and circular aperture
- 5. Blackbody radiation
- 5.1. Basic theory
- 5.2. Virtual lab : blackbody radiation
- 6. The photoelectric effect
- 6.1. Basic theory
- 6.2. Virtual lab : photoelectric effect
- 7. Introduction to atomic physics
- 7.1. Basic theory
- 7.2. Virtual lab : the hydrogen atom
- 7.3. Real lab : spectroscopy
- 8. Introduction to nuclear physics
- 8.1. Basic theory
- 8.2. Virtual lab : beta decay
- 8.3. Real lab : radioactivity and half-life time
- 9. Introduction to electronics
- 9.1. Basic theory
- 9.2. Virtual lab I : Coulomb's law
- 9.3. Virtual lab II : conductors and insulators
- 9.4. Real lab : conductors and insulators
- 10. Resistors and Ohm's law
- 10.1. Basic theory
- 10.2. Virtual lab : Ohm's law
- 10.3. Real lab : Ohm's law
- 11. Constant current circuit
- 11.1. Basic theory
- 11.2. Virtual lab I : resistors in series and parallel
- 11.3. Virtual lab II : mixed circuits and Kirchhoff's laws
- 11.4. Real lab I : resistors in series and parallel
- 11.5. Real lab II : mixed circuits and Kirchhoff's laws
- 12. Capacitor and RC circuits
- 12.1. Basic theory
- 12.2. Virtual lab : capacitors and RC circuits
- 12.3. Real lab : capacitors and RC circuits
- 13. Oscilloscope and fast time constant
- 13.1. Basic theory
- 13.2. Virtual lab I : function generator and voltage chart
- 13.3. Virtual lab II : fast capacitive time constant
- 13.4. Real lab I : introduction to oscilloscope
- 13.5. Real lab II : fast capacitive time constant RC circuit
- 14. The magnetic field
- 14.1. Basic theory
- 14.2. Virtual lab : magnetic field
- 14.3. Real lab : magnetic field
- 15. Faraday's law
- 15.1. Basic theory
- 15.2. Virtual lab : Faraday's law
- 15.3. Real lab : Faraday's law
- 16. Induction and RL circuits
- 16.1. Basic theory
- 16.2. Virtual lab : RL circuit
- 16.3. Real lab : RL circuits
- 17. Introduction to AC circuits
- 17.1. Basic theory
- 17.2. Virtual lab : AC circuits and impedance
- 17.3. Real lab : AC circuits and impedance
- 18. AC filters and resonance
- 18.1. Basic theory
- 18.2. Virtual lab I : AC filters
- 18.3. Virtual lab II : RLC circuit and resonance
- 18.4. Real lab I : AC filters
- 18.5. Real lab II : resonance
- 19. Introduction to digital electronics
- 19.1. Basic theory
- 19.2. Real lab A : integrated-circuit chips
- 19.3. Real lab B : digital circuit design.
- 1. Reflection and refraction of light
- 1.1. Basic theory
- 1.2. Virtual lab : reflection and refraction
- 1.3. Real lab : reflection and refraction
- 2. Thin lenses
- 2.1. Basic theory
- 2.2. Virtual lab A : converging lens
- 2.3. Virtual lab B : converging
- 2.4. Real lab : thin lens equation
- 3. Human eye and corrective lenses
- 3.1. Basic theory
- 3.2. Real lab : corrective lenses