Intenal energy increase in wind of star ?

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Homework Help Overview

The discussion revolves around the concept of total energy in the context of stellar winds, shock formation, and the dynamics of expanding bubbles in astrophysical environments.

Discussion Character

  • Exploratory, Conceptual clarification, Assumption checking

Approaches and Questions Raised

  • Participants explore definitions of total energy and question the sources of energy driving stellar surface activity. There are discussions on the relationship between mechanical energy, thermal energy, and kinetic energy in the context of expanding bubbles.

Discussion Status

Some participants have offered thoughts on the definitions and components of total energy, while others express uncertainty about the implications of their findings, indicating a lack of consensus on whether total energy increases or decreases.

Contextual Notes

There are references to equations related to thermal and kinetic energy, and participants are grappling with contradictions in their results, suggesting potential gaps in information or understanding.

sam_021
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Homework Statement


If a big star gives of wind , forming shock and then a bubble .. And then this bubble is driven by pressure
Also as the bubble expands the surrounding mass gets added to it
Does it make sense for the Total energy to increase ?

Homework Equations


The Attempt at a Solution

 
Last edited:
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sam_021 said:

Homework Statement


If a big star gives of wind , forming shock and then a bubble .. And then this bubble is driven by pressure
Also as the bubble expands the surrounding mass gets added to it
Does it make sense for the Total energy to increase ?

Homework Equations





The Attempt at a Solution


What are your thoughts? How do you define Total Energy? What source of energy is driving the surface activity on a star?
 
berkeman said:
What are your thoughts? How do you define Total Energy? What source of energy is driving the surface activity on a star?
total energy = thermal + Kinetic

Star gives off mechanical energy, then forming shocks which inturn heats up the surrounding, thus driving the shock via pressure

I would say that the total energy decreases ?
Just from simply looking at the equations Thermal=3/2PV and Ek=0.5mv^2

but I have results that contradict that :(
 
anyone ?
 

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