Physics Laboratory Experiments
分類: 图书,进口原版,Professional & Technical(专业与技术类),
品牌: Jerry WilsonCecilia A. Hernandez
基本信息出版社:
Brooks/Cole; International student ed of 7th revised ed (2011年2月10日)平装:544页正文语种:英语ISBN:1439049122条形码:9781439049129商品尺寸:27.6 x 21.8 x 2.6 cm商品重量:1.1 KgASIN:1439049122商品描述内容简介This market-leading manual for the first-year physics laboratory course offers a wide range of class-tested experiments designed specifically for use in small to mid-size lab programs. A series of integrated experiments emphasizes the use of computerized instrumentation and includes a set of computer-assisted experiments to allow students and instructors to gain experience with modern equipment. This option also enables instructors to determine the appropriate balance between traditional and computer-based experiments for their courses. By analyzing data through two different methods, students gain a greater understanding of the concepts behind the experiments. The Seventh Edition is updated with the latest information and techniques involving state-of-the-art equipment, and a new Guided Learning feature addresses the growing interest in guided-inquiry pedagogy. Fourteen additional experiments are also available through custom printing.目录Note: Experiments that incorporate both traditional and computerized instruction are denoted with a TI/CI abbreviation. In some instances, the TI and CI components are not the same, so the title for each component is listed separately. The GL abbreviation precedes experiments that feature a Guided-Learning format. Experiments without an accompanying abbreviation only involve traditional instruction. Experiments available in bound volume: 1. Experimental Uncertainty (Error) and Data Analysis. 2. Measurement Instruments (Mass, Volume, and Density). 3. (GL) The Scientific Method: The Simple Pendulum. 4. (TI-GL/CI) Uniformly Accelerated Motion (Includes TI free-fall spark timer apparatus method at end of experiment). 5. The Addition and Resolution of Vectors: The Force Table. 6. (TI-GL/CI) Newton's Second Law: The Atwood Machine. 7. (TI/CI) Conservation of Linear Momentum. 8. (GL) Projectile Motion: The Ballistic Pendulum. 9. Centripetal Force. 10. (TI/CI) Friction. 11. (GL) Work and Energy. 12. (GL) Torques, Equilibrium, and Center of Gravity. 13. (GL) Simple Machines: Mechanical Advantage. 14. (TI/CI) Simple Harmonic Motion. 15. Standing Waves in a String. 16. The Thermal Coefficient of Linear Expansion. 17. Specific Heats of Metals. 18. Archimedes' Principle: Buoyancy and Density. 19. Fields and Equipotentials. 20. (TI/CI) Ohm's Law. 21. The Measurement of Resistance: Ammeter-Voltmeter Method and Wheatstone Bridge Method. 22. The Temperature Dependence of Resistance. 23. (TI/CI) Resistances in Parallel and Series. 24. Joule Heat. 25. The RC Time Constant (Manual Timing). 26. (TI/CI) The RC Time Constant (Electronic Timing). 27. Reflection and Refraction. 28. Spherical Mirrors and Lenses. 29. (TI) Polarized Light; (CI) Malus's Law. 30. The Prism Spectrometer: Dispersion and Index of Refraction. 31. Line Spectra and Rydberg Constant. 32. (TI) The Transmission Grating: Measuring the Wavelengths of Light; (CI) Single-Slit and Double-Slit Diffraction. 33. Detection of Nuclear Radiation: The Geiger Counter. 34. Radioactive Half-Life. 35. The Absorption of Nuclear Radiation. Experiments available only in customized orders: 36. (TI/CI) Rotational Motion and Moment of Inertia. 37. Conservation of Angular Momentum and Energy: The Ballistic Pendulum. 38. Elasticity: Young's Modulus. 39. Air Column Resonance: The Speed of Sound in Air. 40. (TI) Latent Heats: Heats of Fusion and Vaporization of Water; (CI) Latent Heat of Fusion for Water. 41. Newton's Law of Cooling: The Time Constant of a Thermometer. 42. The Potentiometer: emf and Terminal Voltage. 43. The Voltmeter and Ammeter. 44. Resistivity. 45. Multiloop Circuits: Kirchhoff's Rules. 46. The Earth's Magnetic Field. 47. Introduction to the Oscilloscope. 48. (TI/CI) Phase Measurements and Resonance in ac Circuits. 49. (TI/CI) Electromagnetic Induction. 50. The Mass of an Electron: e/m Measurement.