by henk21cm » Sun Jul 27, 2008 7:58 pm
emc wrote:You guys crack me up.
As Thin Lizzy (the ol town) said: "This guys is cracking up, this guys has broken down". That's how i feel, when i read the description of
todays APOD. An explosion which accordingto the APOD is cylindrically shaped, according to the Hubble description shaped as a 'donut', which seems to be a ring shaped pastry.
I'm puzzled. How can an explosion be ring shaped or cylindrically shaped? When a star blows, such explosion is supposed to be spherical. Space is isotropical, since the gravity field is isotropical, apart from some slightly flattened stars. A magnetic field can break this spherical symmetry. Usually explosions are matter controlled, matter dominates the effects of a magnetic field, however in solar spots and the accompanying prominences the magnetic field plays a major role. The discussion about the plasma bullets elsewhere on this site, is yet another example of magnetically controled 'explosions'.
So suppose the magnetic field dominates. At the poles of the exploding star matter is ejected radially. The magnetic field lines are radially directed, the plasma flies parallel to the field lines. At some height, the lines bend towards the stellar equator, and the direction of the plasma has angle to the field lines. As a result, due to the Lorentz force the plasma starts to spiral along the field lines, hampering the radial motion. Still suppose the magnetic field is sufficiently strong, the matter bends towards the stellar equator.
At the stellar equator matter is ejected radially, thats perpendicular to the magnetic field lines. Here the Lorentz force controls the movement of the matter completely. At the stellar equator matter from the equator itself and matter from the north and south poles of the sun is brought together. Since the matter is accumulated, it might be able to dominate the magnetic field. The only thing this line of thought produces is a slight preference for the matter to be diverted from the poles. Whether that is sufficient to explain quantitatively the odd shape in
todays APOD, that is up to the professional astronomers. I'm JAA.
E.g.
Art Neuendor
fer, do you have any ideas or objections on this line of thought?
[quote="emc"]You guys crack me up.[/quote]
As Thin Lizzy (the ol town) said: "This guys is cracking up, this guys has broken down". That's how i feel, when i read the description of [url=http://antwrp.gsfc.nasa.gov/apod/ap080727.html]todays APOD[/url]. An explosion which accordingto the APOD is cylindrically shaped, according to the Hubble description shaped as a 'donut', which seems to be a ring shaped pastry.
I'm puzzled. How can an explosion be ring shaped or cylindrically shaped? When a star blows, such explosion is supposed to be spherical. Space is isotropical, since the gravity field is isotropical, apart from some slightly flattened stars. A magnetic field can break this spherical symmetry. Usually explosions are matter controlled, matter dominates the effects of a magnetic field, however in solar spots and the accompanying prominences the magnetic field plays a major role. The discussion about the plasma bullets elsewhere on this site, is yet another example of magnetically controled 'explosions'.
So suppose the magnetic field dominates. At the poles of the exploding star matter is ejected radially. The magnetic field lines are radially directed, the plasma flies parallel to the field lines. At some height, the lines bend towards the stellar equator, and the direction of the plasma has angle to the field lines. As a result, due to the Lorentz force the plasma starts to spiral along the field lines, hampering the radial motion. Still suppose the magnetic field is sufficiently strong, the matter bends towards the stellar equator.
At the stellar equator matter is ejected radially, thats perpendicular to the magnetic field lines. Here the Lorentz force controls the movement of the matter completely. At the stellar equator matter from the equator itself and matter from the north and south poles of the sun is brought together. Since the matter is accumulated, it might be able to dominate the magnetic field. The only thing this line of thought produces is a slight preference for the matter to be diverted from the poles. Whether that is sufficient to explain quantitatively the odd shape in [url=http://antwrp.gsfc.nasa.gov/apod/ap080727.html]todays APOD[/url], that is up to the professional astronomers. I'm JAA.
E.g. [b]Art Neu[/b]endor[b]fer[/b], do you have any ideas or objections on this line of thought?