A child slides down the helical water slide AB (Polar Coordinates)

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Alexanddros81
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Homework Statement


13.43 A child slides down the helical water slide AB. The description of motion in cylindrical coordinates is
##R=4m##, ##θ=ω^2t^2## and ##z=h[1-(\frac {ω^2t^2} {π})]##, where h=3m and ω=0.75rad/s.
Compute the magnitudes of the velocity vector and acceleration vector when the child is at B.

Fig13_43.jpg

Homework Equations

The Attempt at a Solution


Pytels_Dynamics073.jpg


Is this correct?
 
on Phys.org
NFuller said:
Yes, this looks right. You just need to find the value of ttt at point BBB to get a number.

Is this possible to find t with the given data? or is it ok to leave it as it is?
 
Looks like a maybe a slip when substituting for ##v_{\theta}##.

upload_2017-9-25_11-48-28.png


It's often a good idea to work things out in symbols and then plug in numbers at the very end.
 
TSny said:
Looks like a maybe a slip when substituting for vθ
After correction v becomes 4.62t

NFuller said:
Yes, this is possible since you know the change in zzz.

At first I couldn't figure this out but then I realized that the child is sliding down the slide. This means that if we accept as the z positive direction
is upwards then the formula becomes:

##z=h[1- (\frac{ω^2t^2} {π})] => -3=3-0537t^2 => t=3.34s##
So ##v=4.62t=15.43 m/s##
and ##a=56.66 m/s^2##

Am I correct?