cosmic adventure 4.6 superlight in action

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SUPERLIGHT IN ACTION

Cosmic Adventure 4.6

© ABCC Australia 2015 new-physics.com

Classical Starlight Aberration

The classical equations for starlight aberration just presented are:

Tilt angle = 𝜃

tan 𝜃 = 𝑣/𝑐

𝑢 = 𝑐2 + 𝑣2

My solutions are quite different.

𝑐 𝜃

𝑣

© ABCC Australia 2015 new-physics.com

© ABCC Australia 2015 new-physics.com

𝑢𝑥′ =

𝑢𝑥 − 𝑣

1 −𝑢𝑥𝑣𝑐2

𝑢𝑦′ = 𝑢𝑦/𝛾 1 −

𝑢𝑥𝑣

𝑐2

These are my equations for starlight aberration duly

transformed:

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Wow! These equations are completely different from the classical ones. They look complicated and are hard for me to understand.

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We don’t understand it either!!!

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Although I am one of the originators, I too find it hard to understand. May be it is better for Dr. Einstein to explain the equations from the very beginning - from the very fundamentals!This would not only help the judge to analyse the theory, but would also help the jury to improve their judgement.

© ABCC Australia 2015 new-physics.com

I agree. That is a great idea! It is also easier for

me to deal with them one by one.

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I am sorry Sir! I will not do it

again!

And, at the same time, Lady Angela! You are becoming too gaudy and flashy. Your multifarious appearance makes me dizzy and the juries confused. I think that your original look as a fairy is nice enough.

© ABCC Australia 2015 new-physics.com

OK! Let us start from the very beginning!

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I would like start with positioning. It is a basic subject in classical physics as well as in my theory of Special Relativity.

It will be much better if we can have the great

Galileo Galilee

to start with his equations.

© ABCC Australia 2015 new-physics.com

Let’s give a big hand to the great

Galileo Galilee!

© ABCC Australia 2015 new-physics.com

POSITIONING AND TRANSFORMATION

To be continued o: Cosmic Adventure 4.7