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Physics Chapter 2 Notes

Physics Chapter 2 Notes. 2-1. Mechanics Study of the motion of objects Kinematics Description of how objects move Dynamics Force and why objects move as they do. Translational Motion Move without rotation Frame of reference Usually with respect to earth Coordinate axes

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Physics Chapter 2 Notes

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  1. Physics Chapter 2 Notes

  2. 2-1 • Mechanics • Study of the motion of objects • Kinematics • Description of how objects move • Dynamics • Force and why objects move as they do Chapter 2

  3. Translational Motion • Move without rotation • Frame of reference • Usually with respect to earth • Coordinate axes • X & Y Chapter 2

  4. Displacement • Change in position • Example: walk 100m, reverse 20m = 80m displacement • Vectors • Magnitude and direction Chapter 2

  5. 2-2 • Average speed • The distance traveled along its path divided by the time it takes to travel this distance • Average Speed = Distance traveled  time elapsed • Velocity • Magnitude and direction • Speed with direction • Average velocity = Displacement time elapsed • v = ∆x/∆t = (x2-x1)/(t2-t1) Chapter 2

  6. 2-3 Instantaneous Velocity • The average velocity over an infinitesimally short time interval Chapter 2

  7. 2-4 • Acceleration • change in velocity over time • Average Acceleration = change of velocity time elapsed • a = ∆v/∆t = (v2-v1)/(t2-t1) Chapter 2

  8. 2-5 • Uniform acceleration • Constant acceleration, constant direction • v = vo + at • x = xo + vot + 1/2 at2 • v2 = vo2 + 2a(x-xo) Chapter 2

  9. 2-6 Problem solving • Read • Draw diagram • Write down known or given information • Think about physics principles • Choose equations with one unknown • Solve calculation • Ask if answer is reasonable • Check units Chapter 2

  10. 2-7 Free fall • Galileo • Objects fall with same acceleration d t2 with absence of air resistance • Acceleration due to gravity on earth g = 9.8 m/s2 or g = 32 ft/s2 • Calculations - assume start point is y=0 • Use same equations with x=y and a=g Chapter 2

  11. 2-8 Graphical analysis of linear motion • Slope = y x • The slope of a curve at a point is equal to the slope of the tangent to the curve at that point • Graph velocity vs. time • Displacement is equal to area under curve between two times Chapter 2

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