Includes 60 x 30 min. lectures.
Also Includes Course Guidebook.

The Course Guidebook includes a glossary and bibliographical references.

"Physics gives us extraordinary power over the world, paving the way for devices from radios to GPS satellites, from steam engines to nanomaterials. It's no exaggeration to say that every invention ever conceived makes use of the principles of physics. Moreover, physics not only underlies all of the natural sciences and engineering, but also its discoveries touch on the deepest philosophical questions about the nature of reality.

Which makes physics sound like the most complicated subject there is. But it isn't. The beauty of physics is that it is simple, so simple that anyone can learn it. In 60 enthralling half-hour lectures, Physics and Our Universe: How It All Works proves that case, giving you a robust, introductory college-level course in physics. This course doesn't stint on details and always presents its subject in all of its elegance - yet it doesn't rely heavily on equations and mathematics, using nothing more advanced than high school algebra and trigonometry." (Publisher's Website)

DVD CONTENTS:

Volume I of II

DISC 1
Lecture 1. The Fundamental Science
Lecture 2. Languages of Physics
Lecture 3. Describing Motion
Lecture 4. Falling Freely
Lecture 5. It's a 3-D World!
Lecture 6. Going in Circles

DISC 2
Lecture 7. Causes of Motion
Lecture 8. Using Newton's Laws - 1-D Motion
Lecture 9. Action and Reaction
Lecture 10. Newton's Laws in 2 and 3 Dimension
Lecture 11. Work and Energy
Lecture 12. Using Energy Conservation

DISC 3
Lecture 13. Gravity
Lecture 14. Systems of Particles
Lecture 15. Rotational Motion
Lecture 16. Keeping Still
Lecture 17. Back and Forth - Oscillatory Motion
Lecture 18. Making Waves

DISC 4
Lecture 19. Fluid Statics - The Tip of the Iceberg
Lecture 20. Fluid Dynamics
Lecture 21. Heat and Temperature
Lecture 22. Heat Transfer
Lecture 23. Matter and Heat
Lecture 24. The Ideal Gas

DISC 5
Lecture 25. Heat and Work
Lecture 26. Entropy - The Second Law
Lecture 27. Consequences of the Second Law
Lecture 28. A Charged World
Lecture 29. The Electric Field
Lecture 30. Electric Potential

DISC 6
Lecture 31. Electric Energy
Lecture 32. Electric Current
Lecture 33. Electric Circuits
Lecture 34. Magnetism
Lecture 35. The Origin of Magnetism
Lecture 36. Electromagnetic Induction

VOLUME II of II

DISC 7
Lecture 37. Applications of Electromagnetic Induction
Lecture 38. Magnetic Energy
Lecture 39. AC/DC
Lecture 40. Electromagnetic Waves
Lecture 41. Reflection and Refraction
Lecture 42. Imaging

DISC 8
Lecture 43. Wave Optics
Lecture 44. Cracks in the Classical Picture
Lecture 45. Earth, Ether, Light
Lecture 46. Special Relativity
Lecture 47. Time and Space
Lecture 48. Space-Time and Mass-Energy

DISC 9
Lecture 49. General Relativity
Lecture 50. Introducing the Quantum
Lecture 51. Atomic Quandaries
Lecture 52. Wave or Particle?
Lecture 53. Quantum Mechanics
Lecture 54. Atoms

DISC 10
Lecture 55. Molecules and Solids
Lecture 56. The Atomic Nucleus
Lecture 57. Energy from the Nucleus
Lecture 58. The Particle Zoo
Lecture 59. An Evolving Universe
Lecture 60. Humble Physics - What We Don't Know

GUIDEBOOK CONTENTS:

INTRODUCTION
Professor Biography
Course Scope

LECTURE GUIDES
Lecture 1: The Fundamental Science
Lecture 2: Languages of Physics
Lecture 3: Describing Motion
Lecture 4: Falling Freely
Lecture 5: It's a 3-D World!
Lecture 6: Going in Circles
Lecture 7: Causes of Motion
Lecture 8: Using Newton's Laws -1-D Motion
Lecture 9: Action and Reaction
Lecture 10: Newton's Laws in 2 and 3 Dimension
Lecture 11: Work and Energy
Lecture 12: Using Energy Conservation
Lecture 13: Gravity
Lecture 14: Systems of Particles
Lecture 15: Rotational Motion
Lecture 16: Keeping Still
Lecture 17: Back and Forth - Oscillatory Motion
Lecture 18: Making Waves
Lecture 19: Fluid Statics: The Tip of the Iceberg
Lecture 20: Fluid Dynamics
Lecture 21: Heat and Temperature
Lecture 22: Heat Transfer
Lecture 23: Matter and Heat
Lecture 24: The Ideal Gas
Lecture 25: Heat and Work
Lecture 26: Entropy - The Second Law
Lecture 27: Consequences of he Second Law
Lecture 28: A Charged World
Lecture 29: The Electric Field
Lecture 30: Electric Potential
Lecture 31: Electric Energy
Lecture 32: Electric Current
Lecture 33: Electric Circuits
Lecture 34: Magnetism
Lecture 35: The Origin of Magnetism
Lecture 36: Electromagnetic Induction
Lecture 37: Applications of Electromagnetic Induction
Lecture 38: Magnetic Energy
Lecture 39: AC/DC
Lecture 40: Electromagnetic Waves
Lecture 41: Reflection and Refraction
Lecture 42: Imaging
Lecture 43: Wave Optics
Lecture 44: Cracks in the Classical Picture
Lecture 45: Earth, Ether, Light
Lecture 46: Special Relativity
Lecture 47: Time and Space
Lecture 48: Space-Time and Mass-Energy
Lecture 49: General Relativity
Lecture 50: Introducing the Quantum
Lecture 51: Atomic Quandaries
Lecture 52: Wave or Particle?
Lecture 53: Quantum Mechanics
Lecture 54: Atoms
Lecture 55: Molecules and Solids
Lecture 56: The Atomic Nucleus
Lecture 57: Energy from the Nucleus
Lecture 58: The Particle Zoo
Lecture 59: An Evolving Universe
Lecture 60: Humble Physics: What We Don't Know

SUPPLEMENTAL MATERIAL

Glossary

Bibliography

Producer, Alisha Reay ; editors, Rich Bernett, Michael Judge, Alisha Reay ; directors, Jonathan D. Leven, Jim M. Allen, Chris Preston.

Sixty lectures of thirty minutes each by Professor Richard Wolfson, Professor of Physics at Middleburry College.