phy 2048c general physics i with lab spring 2011 crns 11154, 11161 & 11165
DESCRIPTION
PHY 2048C General Physics I with lab Spring 2011 CRNs 11154, 11161 & 11165. Dr. Derrick Boucher Assoc. Prof. of Physics. Session 3-4, Chapter 4. Chapter 4. Simple Projectile Motion Circular motion Centripetal Acceleration in Uniform Circular Motion Rotational/Translational comparisons. - PowerPoint PPT PresentationTRANSCRIPT
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PHY 2048CGeneral Physics I with lab
Spring 2011CRNs 11154, 11161 & 11165
Dr. Derrick BoucherAssoc. Prof. of Physics
Session 3-4, Chapter 4
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Chapter 4
• Simple Projectile Motion
•Circular motion
•Centripetal Acceleration in Uniform
Circular Motion
•Rotational/Translational comparisons
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Chapter 4 Practice Problems
Chap 4: 7, 37, 47, 49, 61, 65
Unless otherwise indicated, all practice material is from the “Exercises and Problems” section at the end of the chapter. (Not “Questions.”)
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2-D Kinematics
•The x and y components of the motion are treated
separately.
•Do not mix up x and y data when setting up and
solving equations.
•Good strategy: separate paper into “X” and “Y”
columns.
•Certain events can connect x and y motion at
particular moments (certain t values).
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2-D Kinematics EquationsGeneral 2-D motion
“Projectile” motionay = -g, ax = 0
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Example problem Chapter 4 #10 (p. 120)
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Circular Motion•Radius is constant (or unimportant)•“Position” is an angle, in radians, θ•Velocity is radians per second, ω (that’s “omega”, not “curly double-u.”)•Acceleration can be along the tangent to the circle, at , or in a radial or “centripetal” direction, ac .
2rad/sin with rat
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s
θ
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Example problem Chapter 4 #38 (p. 122)
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Centripetal Acceleration
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Example problem Chapter 4 #62 (p. 123)