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About LinkBacksI think I have a workable understanding of deuteron cold fusion. What I need is the funding to test it in the lab.
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Thread: angular matrix
- 11-21-2011, 11:17 AM #21Raider of the lost time
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Re: angular matrix
Time independence: [∂E(g)]²=[∂F(a)×∂r(a)]·[∂F(b)×∂r(b)] and Mass independence: ¶a(t)·¶r(t)=c²
- 11-21-2011, 11:24 AM #22Moderator
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Re: angular matrix
Yes,we are back to funding again,I will see what funds are available in this neck of the woods.
Originally Posted by AntonioLao 
regards michael.Humilty,coupled with boldness,surprises truth to
reveal herself?
- 11-21-2011, 11:35 AM #23Raider of the lost time
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Re: angular matrix
But in this part of the Texas desert all funds are dried up like the evaporated water that cause the drought.
Time independence: [∂E(g)]²=[∂F(a)×∂r(a)]·[∂F(b)×∂r(b)] and Mass independence: ¶a(t)·¶r(t)=c²
- 11-21-2011, 01:36 PM #24Moderator
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Re: angular matrix
We need to cast our nets further afield for funds. Originally Posted by AntonioLao
regards michael.Humilty,coupled with boldness,surprises truth to
reveal herself?
- 11-22-2011, 10:32 AM #25Raider of the lost time
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Re: angular matrix
Sadly, simple casting also needs liquid assets.
Time independence: [∂E(g)]²=[∂F(a)×∂r(a)]·[∂F(b)×∂r(b)] and Mass independence: ¶a(t)·¶r(t)=c²
- 11-22-2011, 10:37 AM #26Moderator
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Re: angular matrix
Yes it does,and they will be forthcoming I am sure. Originally Posted by AntonioLao
regards michael.Humilty,coupled with boldness,surprises truth to
reveal herself?
- 11-22-2011, 10:51 AM #27Raider of the lost time
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Re: angular matrix
I hoping that would not be a drop by drop trickle down economics.
Time independence: [∂E(g)]²=[∂F(a)×∂r(a)]·[∂F(b)×∂r(b)] and Mass independence: ¶a(t)·¶r(t)=c²
- 11-22-2011, 10:58 AM #28Moderator
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Re: angular matrix
Lets hope not! Fingers crossed. Originally Posted by AntonioLao
regards michael.Humilty,coupled with boldness,surprises truth to
reveal herself?
- 11-22-2011, 11:08 AM #29Raider of the lost time
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Re: angular matrix
The need for this trickle down economics is in direct proportion to the increasing world population.
Time independence: [∂E(g)]²=[∂F(a)×∂r(a)]·[∂F(b)×∂r(b)] and Mass independence: ¶a(t)·¶r(t)=c²
- 11-22-2011, 11:29 AM #30Moderator
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Re: angular matrix
We need to be able to syphon some cash of for our funding project. Originally Posted by AntonioLao
regards michael.Humilty,coupled with boldness,surprises truth to
reveal herself?
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