EdEarl Posted March 26, 2016 Posted March 26, 2016 Would a supernova that makes a neutron star create a spherical gravity wave?
Robittybob1 Posted March 26, 2016 Posted March 26, 2016 Would a supernova that makes a neutron star create a spherical gravity wave? We would have to check up on whether supernova produce gravitational waves. If they do it probably is spherical, one spherical wavefront, I'm guessing it won't have a chirp. Check it out.
swansont Posted March 26, 2016 Posted March 26, 2016 Spherically symmetric supernovae don't emit gravitational waves. They need to have some kind of asymmetry so that there's a quadrupole moment. 1
Robittybob1 Posted March 26, 2016 Posted March 26, 2016 (edited) I wondered where Ed's post went to! http://cgwp.gravity.psu.edu/events/SrcSimDA/slides/Dimmelmeier.pdf that site seems to predict supernovae will produce a gravitational wave; one peak, a ringdown and a bounce. Edited March 26, 2016 by Robittybob1 1
Strange Posted March 26, 2016 Posted March 26, 2016 We would have to check up on whether supernova produce gravitational waves. In general they are expected to because the collapse is never perfectly symmetrical.
swansont Posted March 26, 2016 Posted March 26, 2016 Talk slides leave out detail the audience would be expected to know. But this has come up in other recent threads. The file says it's rotating, so you will have a bulge. That might give you the asymmetry you'd need.
Strange Posted March 26, 2016 Posted March 26, 2016 I wondered where Ed's post went to! http://cgwp.gravity.psu.edu/events/SrcSimDA/slides/Dimmelmeier.pdf that site seems to predict supernovae will produce a gravitational wave; one peak, a ringdown and a bounce. That is very interesting. Apart from the information on the formation of gravity waves, there is a much, much more important lesson for you to learn from that presentation. Can you guess what it is? (I have repeated it rather tediously in some of your other threads on the subject).
Robittybob1 Posted March 26, 2016 Posted March 26, 2016 (edited) That is very interesting. Apart from the information on the formation of gravity waves, there is a much, much more important lesson for you to learn from that presentation. Can you guess what it is? (I have repeated it rather tediously in some of your other threads on the subject). I'm not into guessing. Look it was the first of many articles I could have selected, it wasn't an extensive search. It could be right or wrong but it had the name of a reputable research university. It was a surprise to me that there would be a ringdown, but I have not had time to look into that , but Swansont mentions spinning as a possible cause. Edited March 26, 2016 by Robittybob1
Strange Posted March 26, 2016 Posted March 26, 2016 I'm not into guessing. What I am referring to is the number of times they highlight the complexity of the problem. So please don't start making wild guesses about the way you think they should behave. Look it was the first of many articles I could have selected, it wasn't an extensive search. It could be right or wrong but it had the name of a reputable research university. I don't doubt it is a good source. It has some very interesting information.
swansont Posted March 26, 2016 Posted March 26, 2016 Spherically symmetric supernovae don't emit gravitational waves. They need to have some kind of asymmetry so that there's a quadrupole moment. From the LIGO site http://www.ligo.org/science/GW-Sources.php Consider a star that goes supernova. This explosion will produce gravitational waves if the mass is not ejected in a spherically symmetric way, although the center of mass may be in the same position before and after the explosion. Wikipedia https://en.wikipedia.org/wiki/Gravitational_wave In general terms, gravitational waves are radiated by objects whose motion involves acceleration, provided that the motion is not perfectly spherically symmetric (like an expanding or contracting sphere) or rotationally symmetric (like a spinning disk or sphere). 1
StringJunky Posted March 27, 2016 Posted March 27, 2016 From the LIGO site http://www.ligo.org/science/GW-Sources.php Wikipedia https://en.wikipedia.org/wiki/Gravitational_wave There has to be a 'wobble' in the rotation of spherical objects?
Mordred Posted March 27, 2016 Posted March 27, 2016 Not necessarily a wobble, if you say have a planet with mountains. (Not perfectly symmetrical) that planet generates gravity waves.
StringJunky Posted March 27, 2016 Posted March 27, 2016 Not necessarily a wobble, if you say have a planet with mountains. (Not perfectly symmetrical) that planet generates gravity waves. OK. Ta.
DimaMazin Posted March 27, 2016 Posted March 27, 2016 Not necessarily a wobble, if you say have a planet with mountains. (Not perfectly symmetrical) that planet generates gravity waves. If even crankshaft creates gravity waves , can it create gravity waves without motion at all?
DimaMazin Posted March 27, 2016 Posted March 27, 2016 (edited) No you need motion Does rotating crankshaft create stronger gravity waves in stronger gravitational field (if speed of rotation and crankshaft mass is the same) ? Edited March 27, 2016 by DimaMazin
Mordred Posted March 27, 2016 Posted March 27, 2016 That's a good question. I would have to answer yes.
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