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Lecture Outline Chapter 4 Physics, 4th Edition James S. Walker

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1 Lecture Outline Chapter 4 Physics, 4th Edition James S. Walker
Copyright © 2010 Pearson Education, Inc.

2 Two-Dimensional Kinematics
Chapter 4 Two-Dimensional Kinematics

3 Units of Chapter 4 Motion in Two Dimensions
Projectile Motion: Basic Equations Zero Launch Angle General Launch Angle Projectile Motion: Key Characteristics

4 4-1 Motion in Two Dimensions
If velocity is constant, motion is along a straight line:

5 4-1 Motion in Two Dimensions
Motion in the x- and y-directions should be solved separately:

6 4-2 Projectile Motion: Basic Equations
Assumptions: ignore air resistance g = 9.81 m/s2, downward ignore Earth’s rotation If y-axis points upward, acceleration in x-direction is zero and acceleration in y-direction is m/s2

7 4-2 Projectile Motion: Basic Equations
The acceleration is independent of the direction of the velocity:

8 4-2 Projectile Motion: Basic Equations
These, then, are the basic equations of projectile motion:

9 4-3 Zero Launch Angle Launch angle: direction of initial velocity with respect to horizontal

10 4-3 Zero Launch Angle In this case, the initial velocity in the y-direction is zero. Here are the equations of motion, with x0 = 0 and y0 = h:

11 4-3 Zero Launch Angle This is the trajectory of a projectile launched horizontally:

12 4-3 Zero Launch Angle Eliminating t and solving for y as a function of x: This has the form y = a + bx2, which is the equation of a parabola. The landing point can be found by setting y = 0 and solving for x:

13 4-4 General Launch Angle In general, v0x = v0 cos θ and v0y = v0 sin θ
This gives the equations of motion:

14 4-4 General Launch Angle Snapshots of a trajectory; red dots are at t = 1 s, t = 2 s, and t = 3 s

15 4-5 Projectile Motion: Key Characteristics
Range: the horizontal distance a projectile travels If the initial and final elevation are the same:

16 4-5 Projectile Motion: Key Characteristics
The range is a maximum when θ = 45°:

17 4-5 Projectile Motion: Key Characteristics
Symmetry in projectile motion:

18 Summary of Chapter 4 Components of motion in the x- and y-directions can be treated independently In projectile motion, the acceleration is –g If the launch angle is zero, the initial velocity has only an x-component The path followed by a projectile is a parabola The range is the horizontal distance the projectile travels

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