At IDNLearn.com, find answers to your most pressing questions from experts and enthusiasts alike. Discover trustworthy solutions to your questions quickly and accurately with help from our dedicated community of experts.
The rate at which a nebular cloud rotates increases as the cloud collapses to form systems of stars and planets. Consider a small segment of a nebular cloud with a mass of 1.9×1027 kg, tangential velocity initial equal to 6.8 km s−1 located at an orbital distance initial=2.5×104 km. After the cloud collapses, the same small segment is located at an orbital distance final=3.2×103 km. Calculate the change of the rotational velocity, Δ, for the cloud segment, assuming perfectly circular orbits. Perform your work and report your solution using two significant figures.
Sagot :
We value your participation in this forum. Keep exploring, asking questions, and sharing your insights with the community. Together, we can find the best solutions. Discover the answers you need at IDNLearn.com. Thanks for visiting, and come back soon for more valuable insights.
