Jeff Relf <Me@Privacy.NET> wrote in message news:<cw1lgktk5jwj.dlg@x.Jeff.Relf>...
> Hi Mark Martin ,
>   Re:  Sergey Karavashkin's idea that a planet might
>   be formed from something similar to sun spots ,
> You comment ,
> " With no subsequent delta-V an ejectile at 
>     less than escape velocity will follow 
>     a ballistic trajectory which brings it 
>     right back into the Sun "
> 
> Right ,  but I think Sergey's idea was that 
>   some stars might be spinning so fast that 
>   a particular kind of  " sun spot "  would be 
>   enough to reach the escape velocity .
> 
> Remember ,  he's suggesting that the heat and compression
>   inside a planet or star creates a new state of matter 
>   which is positively charged locally ,
>   but negatively charged outside the planet or star .
> 
> I also think he's saying that the magnetic nature of 
>   sunspots and the sun itself help explain how
>   The ejected matter would then form stable orbits ,
>   creating something like  " Quanta " ...  i.e. planets .
>   ( But I could be wrong about that )
> 
> It's a very interesting idea ,
>   but I don't know how to confirm that observationally .
> 
> Re:  That refinement to general and special relativity :
>   " The laws of physics ,  including the speed of light ,
>     are the same regardless of one's hypothetical scale .
>     Where :
>     _  Space ,  time ,  and heat are all scaled .
>     _  Heat is fundamentally random mass-energy .
>     _  It's always one's incomplete information 
>          that causes any apparent randomness . "
> 
> You observe ,
>   " It's only a refinement at long last if 
>       it happens to pan out observationally .
>     Does it ? "
> 
> Yes it does in fact ...  
>   And I'll soon be getting my Nobel .
>   And when I do ,
>   I'll buy everyone here a round of drinks .
> 
> No ,  seriously ,  I haven't thought it through that much .
>   but we'll know it's true if Karavashkin gets a Nobel .
> 
> But this is exactly the kind of thing that
>   I like to think about .


The Sun even currently shoots solar fares high above its surface. 
Some of the particles from them even reach the Earth.  I believe
sunspots are involved in this.

When the Sun was spinning much faster, larger volumes of ejecta may
have been expelled, some of which might have cooled into asteroids. 
While it is true that there initial orbits would have terminated back
in the Sun, if many were being ejected during a time of intense
sunspot activity, they might have interacted gravitationally with each
other so that while some still fell back, others were modified in
there orbits and stayed in orbit.  Eventually they have collided with
each other to form larger more planetary like bodies.

It's possible.

Double-A