anonymous
  • anonymous
A diatomic gas molecule has a mass of 9.63 x 10^-26 kg and a rotational inertia of 6.50 x 10^-46 kg·m^2 about an axis through the center of the line joining the atoms and perpendicular to that line. Suppose the center of mass of the molecule has a translational speed of 599 m/s and the molecule has a rotational kinetic energy that is 2/3 of the translational kinetic energy of its center of mass. What then is the molecule's angular speed about the center of mass?
Physics
  • Stacey Warren - Expert brainly.com
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SOLVED
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jamiebookeater
  • jamiebookeater
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apoorvk
  • apoorvk
The time taken to cover the last mile increased from the previous mile, so the speed definitely decreased over there, which is a result of deceleration, or negative acceleration. Hence, last option!
anonymous
  • anonymous
Translation kinetic energy is defined as\[TKE = {1 \over 2} mv^2\]Rotational kinetic energy is defined as\[RKE = {1 \over 2} I \omega^2\]where \(\omega\) is the angular velocity. From the problem statement, \[{2 \over 3} TKE = RKE\]
anonymous
  • anonymous
so m = 9.63 x 10^-26 kg v = 599 m/s what is 6.50 x 10^-46 kg·m^2?

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anonymous
  • anonymous
THANK YOU. YOU ARE GOD!!! THE MESSIAH HAS RETURNED! IT IS EASHMORE!

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