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Talk:Proper Time Adjusted Special Relativity with Gravitation: Difference between revisions

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</td></tr>
</td></tr>
</table>
<table class="wikitable" style="font-size:12pt">
<tr>
<td>
`F=m_2*a`
`F=G*(m_1*m_2)/r^2
</td>
<td>
`m_2*a=G*(m_1*m_2)/r^2`
</td>
<td>
`a=G*m_1/r^2`
</td></tr>
<tr>
<td>
`upsilon=a*T`
`upsilon=G*m_1/r^2*T=G*(m_1*T)/r^2`
</td>
<td>
`x=upsilon T`
`t' = Tsqrt(1-upsilon^2/c^2)`
</td>
<td>
`x=G*(m_1*T)/r^2 T`
`t' = T sqrt(1-(G*(m_1*T)/r^2)^2/c^2)`
</td>
</tr>
</table>
</table>

Revision as of 16:40, 30 July 2007

`F=m_2*a`

`F=G*(m_1*m_2)/x^2

`m_2*a=G*(m_1*m_2)/x^2`

`a=G*m_1/x^2`

`upsilon=a*T`

`upsilon=G*m_1/x^2*T=G*(m_1*T)/x^2`

`x=upsilon T`

`t' = Tsqrt(1-upsilon^2/c^2)`

`x=G*(m_1*T)/x^2 T`

`t' = T sqrt(1-(G*(m_1*T)/x^2)^2/c^2)`

`x=root3(G*m_1*T^2)`

`t' = T sqrt(1-(root3(G*m_1*T^2))^2/c^2)`

`F=m_2*a`

`F=G*(m_1*m_2)/r^2

`m_2*a=G*(m_1*m_2)/r^2`

`a=G*m_1/r^2`

`upsilon=a*T`

`upsilon=G*m_1/r^2*T=G*(m_1*T)/r^2`

`x=upsilon T`

`t' = Tsqrt(1-upsilon^2/c^2)`

`x=G*(m_1*T)/r^2 T`

`t' = T sqrt(1-(G*(m_1*T)/r^2)^2/c^2)`