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Experiments and Demonstrations in Physics
I︠A︡. A. Kraftmakher , Yaakov Kraftmakher
1. Introductory experiments. Introduction. 1.1. Free fall. 1.2. Interference of sound waves. 1.3. Charging and discharging a capacitor. 1.4. I-U characteristics. 1.5. Lissajous patterns. 1.6. Determination of short time intervals. 1.7. Characteristics of a DC source. 1.8. Oersted's great discovery. 1.9. Magnetic field measurements. 1.10. Magnetic force. 1.11. Helmholtz coils. 1.12. Faraday's law of induction. 1.13. Lenz's rule. 1.14. Electric power in AC circuits. 1.15. Electrical filters. 1.16. Probability functions. 1.17. Photometric laws. 1.18. Kirhhoffs rule. 1.19. Malus' law. 1.20. Irradiance and illuminance -- 2. Mechanics and molecular physics. 2.1. Velocity of sound in air. 2.2. Pendulum. Tuning fork. 2.4. Doppler effect. 2.5. Nonlinear dynamics. 2.6. Light bulb. 2.7. Pulse calorimetry. 2.8. Principles of modulation calorimetry. 2.9. Heat of vaporization. 2.10. Phase diagram of nitrogen -- 3. Electricity and magnetism. 3.1. Rotating magnetic field. 3.2. LCR circuit. 3.3. Skin effect. 3.4. Eddy currents. 3.5. Spectra of electrical signals. 3.6. Correlation analysis. 3.7. Thermal noise. 3.8. Lock-in detection. 3.9. Ampère's circuital law. 3.10. Transformer -- 4. Optics and atomic physics. 4.1. Interference of light. 4.2. Diffraction of light. 4.3. Optical communication. 4.4. Polarization of light. 4.5. Faraday effect. 4.6. Spectrophotometry. 4.7. Speed of light. 4.8. Thermal radiation. 4.9. Hydrogen atom. 4.10. Photoluminescence -- 5. Condensed matter physics. 5.1. Equilibrium point defects in metals. 5.2. Conductivity of solids. The Hall effect. 5.3. Semiconductor electronics. 5.4. Photovoltaic effect. 5.5. Ferromagnetism. 5.6. Curie point. 5.7. Dielectric constant. 5.8. Thermoelectric phenomena -- 6. Nobel prize experiments. 6.1. Electron. 6.2. Michelson interferometer. 6.3. Principles of radio. 6.4. Photoelectric effect. 6.5. Franck-Hertz experiment. 6.6. Thermionic emission. 6.7. Transistor. 6.8. Superconductivity -- 7. Student projects. 7.1. Moving-coil meter as a pendulum. 7.2. Velocity of sound versus temperature. 7.3. Hot-wire anemometry. 7.4. Direct readout of resistivity. 7.5. Contactless measurement of conductivity. 7.6. Stokes viscometer. 7.7. Metal detection and the Theremin. 7.8. Recording magnetometer. 7.9. Lock-in detector in a matchbox. 7.10. Noise reduction by averaging technique. 7.11. Detection of thermal radiation. 7.12. Optical communication. 7.13. Percolation. 7.14. Clamp-on ammeter. 7.15. Curie point. 7.16. Simple electro-musical instruments. 7.17. Two-stage Peltier cooler. 7.18. Absolute temperature scale. 7.19. Cavendish experiment. 7.20. Demonstrations with a microscope. 7.21. Diamagnetism of superconductors. 7.22. Poisson spot
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