02-19-2009, 09:03 AM | #31 | |
DefenderOfTheBuelliverse
Join Date: Feb 2008
Location: Parts Unknown
Moto: Buell XB12R
Posts: 18,585
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Really? How come. I was gonna go with the 2CT's.
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02-19-2009, 11:45 AM | #32 |
Bring on the Zombies!
Join Date: Feb 2008
Location: Cleveland
Moto: 2000 Yamaha YZF600R
Posts: 2,691
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02-19-2009, 06:40 PM | #33 | |
Ride Naked.
Join Date: Feb 2008
Location: Flat and Straight ND
Moto: 08 BUELL 1125R, 05 SV650S
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02-19-2009, 07:30 PM | #34 |
Moto GP Star
Join Date: Mar 2008
Posts: 14,556
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02-19-2009, 07:32 PM | #35 | |
DefenderOfTheBuelliverse
Join Date: Feb 2008
Location: Parts Unknown
Moto: Buell XB12R
Posts: 18,585
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Yeah I read that too.
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02-19-2009, 11:46 PM | #36 |
Ride Naked.
Join Date: Feb 2008
Location: Flat and Straight ND
Moto: 08 BUELL 1125R, 05 SV650S
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02-20-2009, 11:12 AM | #37 |
Let go of my ears.
Join Date: Feb 2008
Location: Jacksonville, FL
Moto: '03 GSX-R600, '04 625SMC
Posts: 1,394
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That's exactly what I said. Without lifting the bike you don't know how much the weight of the bike compresses the suspension. Anyway, glad you got your answer.
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02-20-2009, 11:28 AM | #38 |
Clit Commander
Join Date: Feb 2008
Location: Las Vegas
Moto: 2012 Ducati 1199 Panigale S
Posts: 4,189
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02-20-2009, 11:32 AM | #39 | ||
DefenderOfTheBuelliverse
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Moto: Buell XB12R
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02-20-2009, 05:42 PM | #40 | |
Moto GP Star
Join Date: Mar 2008
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Quote:
So, g_{\mu \nu} = \eta_{\mu \nu} + fk_{\mu}k_{\nu} \!. f = \frac{Gr^2}{r^4 + a^2z^2}\left[2Mr - Q^2 \right]. k_{x} = \frac{rx+ay}{r^2 + a^2}.. k_{y} = \frac{ry-ax}{r^2 + a^2}.. k_{z} = \frac{z}{r}.. k_{0} = 1. And (with "r" being my weight with gear, 1 = \frac{x^2+y^2}{r^2 + a^2} + \frac{z^2}{r^2} Taking into account, A_{\mu} = \frac{Qr^3}{r^4 + a^2z^2}k_{\mu} \vec{E} + i\vec{B} = -\vec{\nabla}\Omega\, \Omega = \frac{Q}{\sqrt{(\vec{R}-i\vec{a})^2}} \, with my weight of 275 lbs means that I need to add one line of pre-load on my front forks and subtract two threads on my shock. Thanks,Guys!!! |
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