Naked Science Forum
On the Lighter Side => New Theories => Topic started by: simplified on 23/12/2012 06:58:03
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I have created equation for gravitational slowing of time to avoid gravitational length contraction.
T=T_o/(1-2GM/Rc^2)^[(1+v^2/c^2)/2]
v - speed of atomic clock in gravitation
Is this equation exacter than Einstein's equation?
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T=T_o/(1-2GM/Rc^2)^[(1+v^2/c^2)/2]
T =
I think.
(oops, I think I got the "1 -" in the wrong place, fixed).
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T=T_o/(1-2GM/Rc^2)^[(1+v^2/c^2)/2]
T =
I think.
(oops, I think I got the "1 -" in the wrong place, fixed).
T=
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Welcome to a bit of TEX hacking.
=
However, it is not the same as:
=
Unless I missed something in the original equation.
I'll try to understand your equation later, but I assume you are doing something similar to the Lorentz Transformation (http://en.wikipedia.org/wiki/Lorentz_transformation).
Velocity is a function of time and distance, thus
Time is a function of velocity and distance.
Hmmm,
So, is T0 a constant (initial time), or is it a function (the time function independent of gravitation effects)?
M is the mass of the planet.
G is the gravitational constant.
R is distance from the center of the planet.
c is the speed of light.
v is the velocity of whatever is carrying the clock.
Of course, if you think of Earth, the planet surface where most of our clocks are is spinning and moving.
Anyway, why don't you post a little about what you're trying to accomplish, and the derivation of your equation.
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Cliff
1-v^2/c^2=(c^2-v^2)/c^2
1+v^2/c^2=(c^2+v^2)/c^2
What is wrong?I think you don't know the mathematical rule.Maybe the rule works only in Russia,I don't know.Even my calculator works so.
You want to know equation derivation.I don't like gravitational length contraction.If the equation is right then we don't need gravitational length contraction.Therefor I have created it.
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No... that algebra is fine.
I had just misread your exponent earlier.
Thinking:
^[(1+v^2/c^2)/2] = ^[((1+v^2)/c^2)/2]
[:-\]
See, TEX is so much easier [;)]
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Hmmm,
So, is T0 a constant (initial time), or is it a function (the time function independent of gravitation effects)?
http://en.wikipedia.org/wiki/Gravitational_time_dilation
http://hyperphysics.phy-astr.gsu.edu/hbase/hframe
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simplified what do you think of this site and its graphics in its attempt to explain gravitational length contraction?
http://www.upscale.utoronto.ca/GeneralInterest/Harrison/GenRel/GenRel.html
this puzzle is found at the bottom of the page....
A bucket of water has a spring soldered to the bottom, as shown. A cork is attached the spring, and is therefore suspended under the surface of the water.
You are on top of the CN tower, holding the bucket, and step off. While falling towards the ground, do you see the cork move towards the top of the water, towards the bottom of the bucket, or stay where it is relative to the bucket and the water?
namaste
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Archimedes' force will increase.
delta of Archimedes' force=pv*delta of g
But force of the spring will increase too
delta of force of the spring=2delta of energy of the spring :-\