Number Description
Chapter 1: Strategies for Solving Problems
Circular pendulum Circular pendulum example problem
Problem 1-7 Two masses, one swinging
Chapter 3: Using F=ma
Throwing a Ball Example Maximization of distance with relation to ground slope
Problem 3-1 Basic Atwood's machine
Problem 3-2 Double Atwood's machine
Problem 3-3 Infinite Atwood's machine
Problem 3-8 Block on a moving inclined plane
Problem 3-11 Chain falling off a table
Problem 3-27 A more complicated Atwood's machine
Problem 3-28 Another Atwood's machine
Problem 3-29 Yet another Atwood's machine
Problem 3-30 ANOTHER Atwood's machine
Problem 3-31 Haven't there been enough Atwood's machines yet?
Problem 3-32 Nope, one more
Chapter 4: Oscillations
Damped and driven spring Damped and driven spring resonance example
Two masses, three springs Other example problem from chapter 4
Problem 4-9 Unequal masses
Problem 4-11 Driven mass on a circle
Problem 4-12 Springs on a circle
Chapter 5: Conservation of energy and momentum
Problems 5-15 and 5-16 Comparison of propelling a car elastically and inelastically
Problem 5-23 Basketball and tennis ball
Problem 5-29 Falling energy conserving chain (only mostly correct)
Chapter 6: The Lagrangian method
Spring pendulum Spring pendulum example problem
Chapter 8: Angular momentum part 1
Problem 8-20 Superball bouncing
Exercises 8-76 & 8-77 Superball bouncing under a table

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