Estimate Sun's Rotation Period as a Neutron Star

AI Thread Summary
To estimate the new rotation period of the sun as a neutron star, one must apply the conservation of angular momentum. The initial radius of the sun is 6.96E8 m with a rotation period of 25.3 days, which needs to be converted into seconds for calculations. Using the formula for angular momentum, the relationship between initial and final angular velocities can be established. The final period of rotation can be calculated from the final angular velocity. The discussion highlights confusion regarding the unit "d" in the period, confirming it stands for days.
wildrjetta
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Could someone help me start this problem. My mind it in the angular momentum mode and I am having trouble seeing where to start on this one. :confused:

The sun's radius is 6.96E8m and it rotates with a period of 25.3d. Estimate the new period of rotation of the sun if it collapses with no loss of mass to become a neutron star of radius 5.5km. Give the result in seconds.

Thank you very much!
 
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With the given radius you can find I_{initial} and I_{final}. With the given period, find out \omega_{initial}. Then you use conservation of angular momentum to achieve your answer.
 
as such...(you don't need the moments of inertia exactly because it maintains a spherical shape and same mass so those factor out)

(r_i)^2 \omega_i = (r_f)^2 \omega_f
\omega_f = \frac{(r_i)^2 \omega_i}{(r_f)^2}
T_{new} = \frac{2 \pi}{\omega_f}

follow complete done
 
I calculated two different answers, both of which were to my dismay incorrect...but I am thinking that a conversion error might be the culprit. I am having trouble understanding what "a period of 25.3d" is -- as in, what does "d" stand for...should it be a time unit?
 
in a period d=days
 
THANK YOU THANK YOU THANK YOU! to everyone involved in helping with this problem! :biggrin:
 

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