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Physics 2048 Spring 2008

Physics 2048 Spring 2008. Lecture #4 Chapter 4 motion in 2D and 3D. Definitions Projectile motion Uniform circular motion Relative motion. Chapter 4 – 2D and 3D Motion. Definitions. Position vector: extends from the origin of a coordinate system to the particle.

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Physics 2048 Spring 2008

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  1. Physics 2048 Spring 2008 Lecture #4 Chapter 4 motion in 2D and 3D

  2. Definitions • Projectile motion • Uniform circular motion • Relative motion Chapter 4 – 2D and 3D Motion

  3. Definitions Position vector: extends from the origin of a coordinate system to the particle. Displacement vector: represents a particle’s position change during a certain time interval. Average velocity:

  4. Instantaneous velocity: • The direction of the instantaneous velocity of a • particle is always tangent to the particle’s path at • the particle’s position Average acceleration: Instantaneous acceleration:

  5. Motion of a particle launched with initial velocity, v0 and free fall acceleration g. II. Projectile motion The horizontal and vertical motions are independent from each other. - Horizontal motion:ax=0  vx=v0x= cte Range (R):horizontal distance traveled by a projectile before returning to launch height. - Vertical motion:ay= -g

  6. - Trajectory: projectile’s path. - Horizontal range: R = x-x0; y-y0=0. (Maximum for a launch angle of 45º ) Overall assumption: the air through which the projectile moves has no effect on its motion  friction neglected.

  7. ## In Galileo’s Two New Sciences, the author states that “for elevations (angles of projection) which exceed or fall short of 45º by equal amounts, the ranges are equal…” Prove this statement. y v0 θ=45º x x=R=R’?

  8. III. Uniform circular motion Motion around a circle at constant speed. Magnitude of velocity and acceleration constant. Direction varies continuously. -Velocity: tangent to circle in the direction of motion. - Acceleration: centripetal - Period of revolution: v0y v0x

  9. 1- A cat rides a merry-go-round while turning with uniform circular motion. At time t1= 2s, the cat’s velocity is: v1= (3m/s)i+(4m/s)j, measured on an horizontal xy coordinate system. At time t2=5s its velocity is: v2= (-3m/s)i+(-4m/s)j. What are (a) the magnitude of the cat’s centripetal acceleration and (b) the cat’s average acceleration during the time interval t2-t1? v2 In 3s the velocity is reversed  the cat reaches the opposite side of the circle x v1 y

  10. IV. Relative motion Particle’s velocity depends on reference frame 1D Frame moves at constant velocity 0 Observers on different frames of reference measure the same acceleration for a moving particle if their relative velocity is constant.

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