If gravity and acceleration are equivalent the strength of gravity is limited
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From: BURT on 26 Jul 2010 00:01 If there is an acceleration limit below the speed of light and gravity strength is equivalent to acceleration then a gravity limit defines the force. The acceleration limit is enforced by weight at all times. Gravity is a limited acceleration below the speed of light enforced by weight. Mitch Raemsch
From: Vladimir Kirov on 26 Jul 2010 03:30 BURT: > If there is an acceleration limit below the speed of light and gravity > strength is equivalent to acceleration then a gravity limit defines > the force. > > The acceleration limit is enforced by weight at all times. > Thence appears maximum for gravitation constant, think G=Rc^2/M > Gravity is a limited acceleration below the speed of light enforced by > weight. > > Mitch Raemsch
From: jbriggs444 on 26 Jul 2010 08:44 On Jul 26, 3:30 am, Vladimir Kirov <vldmr....(a)gmail.com> wrote: > BURT: > > > If there is an acceleration limit below the speed of light and gravity > > strength is equivalent to acceleration then a gravity limit defines > > the force. > > > The acceleration limit is enforced by weight at all times. > > Thence appears maximum for gravitation constant, think > > G=Rc^2/M And it sounds like you've decided that the gravitational acceleration around an object of mass M at radius R may be no greater than the centripetal acceleration of an object orbitting at the speed of light. f = m1 v^2 / r f = G m1 m2 / r^2 Let v = c, solve for G and mess with the variable names slightly. G = m1 v^2 / r / ( m1 m2 / r^2 ) = v^2 r / m2 = R c^2 / M Or, more properly: G <= R c^2 / M All taken under the assumptions of Euclidean geometry and Newtonian mechanics, of course. Now you have one major problem. You propose this as a limitation on G. But the limitation is expressed in terms of variables M and R. G is what it is. It can be measured. It is a constant. So the formula might be better expressed as: M <= R c^2 / G Expressed this way it is clearly a limitation on how much mass you can assemble within a given radius without reaching a point where the assembly has a [Newtonian] orbital velocity in excess of c.
From: Y.Porat on 26 Jul 2010 09:19 On Jul 26, 9:30 am, Vladimir Kirov <vldmr....(a)gmail.com> wrote: > BURT: > > > If there is an acceleration limit below the speed of light and gravity > > strength is equivalent to acceleration then a gravity limit defines > > the force. > > > The acceleration limit is enforced by weight at all times. > > Thence appears maximum for gravitation constant, think > > G=Rc^2/M > > > Gravity is a limited acceleration below the speed of light enforced by > > weight. > > > Mitch Raemsch -------------- and it is not accidental!! gravity does not stop while the acrer mass stops moving because the gravity is done by 'gravitions that dont stop moving indort of a fountain BTW that should be another prove against 'curved space time' doing the gravity force !!!!! ATB Y.Porat ---------------------------
From: Igor on 26 Jul 2010 09:52
On Jul 26, 12:01 am, BURT <macromi...(a)yahoo.com> wrote: > If there is an acceleration limit below the speed of light There's not, so you're doa right there. |