Hello All
I do not know if this came up before.
If it did I'm sorry.
But! wow what an image
http://antwrp.gsfc.nasa.gov/apod/ap060412.html
Two Black holes dancing to the same tune.
Binary Black Hole in 3C 75
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harry
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- Joined: Fri Nov 18, 2005 8:04 am
- Location: Sydney Australia
Binary Black Hole in 3C 75
Harry : Smile and live another day.
I have a question but I have to set it up so bare with me.
The gravitational force from the two black holes as felt by an observer directly above or below the center of mass with respect to the plane of rotation (as to eliminate any change in the force from when the two are aligned or when one is closer than the other if they have different masses) would be F = Gm(M1+M2)/(r^2). M1 and M2 are the masses of the black holes, m is the mass of the observer, r is the distance from the observer to the gravitational center of the two black holes, and G is the gravitational constant.
Now, my question is would the force from the super-supermassive black hole be bigger, smaller, or equal to F. In other words, is there some chance that gravity (or mass) is somehow lost or gained during the process. I'm just talking about the black holes themselves and not any surrounding gases that will get sucked in and contribute to the mass.
The gravitational force from the two black holes as felt by an observer directly above or below the center of mass with respect to the plane of rotation (as to eliminate any change in the force from when the two are aligned or when one is closer than the other if they have different masses) would be F = Gm(M1+M2)/(r^2). M1 and M2 are the masses of the black holes, m is the mass of the observer, r is the distance from the observer to the gravitational center of the two black holes, and G is the gravitational constant.
Now, my question is would the force from the super-supermassive black hole be bigger, smaller, or equal to F. In other words, is there some chance that gravity (or mass) is somehow lost or gained during the process. I'm just talking about the black holes themselves and not any surrounding gases that will get sucked in and contribute to the mass.
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harry
- G'day G'day G'day G'day
- Posts: 2881
- Joined: Fri Nov 18, 2005 8:04 am
- Location: Sydney Australia
Hello
Gravity, electromagnetic forces and mass is not lost.
Many people think of Black Holes as from the movies. Matter just going to nothing and another dimension.
The Black Hole is an ultra massive plasma it can gain mass and eject matter. All is accounted for just like a bank.
Gravity, electromagnetic forces and mass is not lost.
Many people think of Black Holes as from the movies. Matter just going to nothing and another dimension.
The Black Hole is an ultra massive plasma it can gain mass and eject matter. All is accounted for just like a bank.
Harry : Smile and live another day.
dogel,
I don't want to pretend to be an expert on this nor, I believe there are many experts in the area of what happens inside a black hole.
However, a black hole, as per GTR, has a gravitational field that may vary time to time depending on the activities within.
Newtonian physics looks at gravitation as an action at a distance, which Einstein replaced with gravitational field.
The Newtonian equation that you have used tells us that the force between two massive objects depend on their masses. However, if you drop a nail and a feather, both fall on earth at the same time. That was the paradox, which made Einstein come up with GTR.
Newton's equations and Euclidean geometry hold good for small neighbourhood like solar system but when you talk about Black holes, you have to look at it as gravitational field and the spacetime dimensions, where the equation you have used is not useful.
Good Links,
http://www.eso.org/outreach/press-rel/p ... 17-02.html
http://www.mpe.mpg.de/ir/GC/index.php
http://www.universetoday.com/am/publish ... khole.html
http://en.wikipedia.org/wiki/Euclidean_geometry
http://philsci-archive.pitt.edu/archive/00001290/
http://www.fermentmagazine.org/Publicit ... dtime.html
I don't want to pretend to be an expert on this nor, I believe there are many experts in the area of what happens inside a black hole.
However, a black hole, as per GTR, has a gravitational field that may vary time to time depending on the activities within.
Newtonian physics looks at gravitation as an action at a distance, which Einstein replaced with gravitational field.
The Newtonian equation that you have used tells us that the force between two massive objects depend on their masses. However, if you drop a nail and a feather, both fall on earth at the same time. That was the paradox, which made Einstein come up with GTR.
Newton's equations and Euclidean geometry hold good for small neighbourhood like solar system but when you talk about Black holes, you have to look at it as gravitational field and the spacetime dimensions, where the equation you have used is not useful.
Good Links,
http://www.eso.org/outreach/press-rel/p ... 17-02.html
http://www.mpe.mpg.de/ir/GC/index.php
http://www.universetoday.com/am/publish ... khole.html
http://en.wikipedia.org/wiki/Euclidean_geometry
http://philsci-archive.pitt.edu/archive/00001290/
http://www.fermentmagazine.org/Publicit ... dtime.html
The Universe Is What You Think It Is. Every Thought Ever Thought Is True.
Actually, there's no paradox there with Newtonian gravity. The force acting between two bodies varies with their mass, but the acceleration due to gravity is also dependant on mass. For objects falling to Earth (neglecting friction with the air), this means they all fall to the Earth with constant acceleration, dependant on the mass of the Earth alone.astroton wrote:The Newtonian equation that you have used tells us that the force between two massive objects depend on their masses. However, if you drop a nail and a feather, both fall on earth at the same time. That was the paradox, which made Einstein come up with GTR.
Don't just stand there, get that other dog!
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harry
- G'day G'day G'day G'day
- Posts: 2881
- Joined: Fri Nov 18, 2005 8:04 am
- Location: Sydney Australia
Hello All
Re link
http://antwrp.gsfc.nasa.gov/apod/ap060412.html
If the separation is 25,000 light years, how big is the jsts,,,,50,000 light years. Yes another wow!
Re link
http://antwrp.gsfc.nasa.gov/apod/ap060412.html
The two bright sources at the center of this composite x-ray (blue)/ radio (pink) image are co-orbiting supermassive black holes powering the giant radio source 3C 75. Surrounded by multimillion degree x-ray emitting gas, and blasting out jets of relativistic particles the supermassive black holes are separated by 25,000 light-years
If the separation is 25,000 light years, how big is the jsts,,,,50,000 light years. Yes another wow!
Harry : Smile and live another day.
Qev,Qev wrote:Actually, there's no paradox there with Newtonian gravity. The force acting between two bodies varies with their mass, but the acceleration due to gravity is also dependant on mass. For objects falling to Earth (neglecting friction with the air), this means they all fall to the Earth with constant acceleration, dependant on the mass of the Earth alone.astroton wrote:The Newtonian equation that you have used tells us that the force between two massive objects depend on their masses. However, if you drop a nail and a feather, both fall on earth at the same time. That was the paradox, which made Einstein come up with GTR.
Nice pick up. You found a paradox in my statement. For a constant force when you equate m1g=Gm1mE/r2, the m1 cancels out, meaning g depends on earth's mass alone.
However, in accence the action at distance is not able to tell everything. As an example Precession of Mercury Perihelion.
That's where Newton's equation needs replacing to explain curved spacetime.
good links,
http://www-groups.dcs.st-and.ac.uk/~his ... ivity.html
http://hypertextbook.com/physics/founda ... ndex.shtml
http://en.wikipedia.org/wiki/Inertia
http://www-groups.dcs.st-and.ac.uk/~his ... ation.html
http://www.world-mysteries.com/sci_13.htm
http://en.wikipedia.org/wiki/Field_equation
http://en.wikipedia.org/wiki/Einstein_field_equations
http://archive.ncsa.uiuc.edu/Cyberia/Nu ... ivity.html
The Universe Is What You Think It Is. Every Thought Ever Thought Is True.
Yup! Newton's equations are only an approximation to reality... Relativity definitely provides the more accurate answers! I just wanted to bring up the 'constant rate of acceleration' thing because that result kinda bent my head the first time I learned it. 
Don't just stand there, get that other dog!