Difference between revisions of "Forest UCM Homework"

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:<math> \vec{r}(t) = R \left ( \cos(\omega t) \hat{i} \sin(\omega t) \hat j \right)</math>
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:<math> \vec{r}(t) = R \left ( \cos(\omega t) \hat{i} + \sin(\omega t) \hat j \right)</math>
 
   
 
   
 
Find the particle's velocity and acceleration.  What are the magnitude and direction of the acceleration?  Relate your results to well-known properties of uniform circular motion
 
Find the particle's velocity and acceleration.  What are the magnitude and direction of the acceleration?  Relate your results to well-known properties of uniform circular motion

Revision as of 04:17, 16 August 2014

Chapt 1

1.10) A particle moves in a circle (center O and radius R) with constant angular velocity [math]\omega[/math] counter-clockwise. The circle lies in the x-y plane and the particle is on the x axis at time t=0. Show the the particle's position is given by


[math] \vec{r}(t) = R \left ( \cos(\omega t) \hat{i} + \sin(\omega t) \hat j \right)[/math]

Find the particle's velocity and acceleration. What are the magnitude and direction of the acceleration? Relate your results to well-known properties of uniform circular motion


,1.15, 1.17,1.18,1.21,1.24 1.26)

1.35.)A golf ball is hit from ground level with speed v_0 in a direction that is due east and at an angle of \theta above the horizontal. Neglecting air resistance, use Newton's second law to find the position as a finction of tme, using coordiates with x measured east, y nore, and z vertiaclly up. Find the time for the golf ball to return to the ground and how far it travels in that time.

1.37.) A student kicks a frictionless puck with initial speed v_0, so that it slides staight up a plane that is inclined at an angle \theta above the horizontal. (a) Write down Newton's second law for the puck and solve to give its position as a function of time.(b) How long will the puck take to return to its starting point?



1.26, 1.35, 1.36, 1.37, 1.38, 1.46

1.26,1.27,1.35,1.36,1.37,


Forest_Ugrad_ClassicalMechanics#Homework_Assignments