Bengt Nyman wrote:Zyxzevn wrote:
... If gravity was caused by gravity induced dipoles, he would not accelerate...
The dipoles are NOT gravity induced.
Gravity induced dipoles would make it a circular argument. This is an error in the Ralph Sansbury's dipole gravity theory.
Yes, we are discussing Sansbury's gravity indeed.
But I removed the topic in my original post to focus on the more general issues.
It appears to me that the showed experiments do not support any kind of dipole gravity.
And in electrically induced dipoles (like the circling water experiment),
we have a problem:
the dipoles depend on the material used.
Water creates a dipole, and is always attracted.
Aluminium has no dipole.
In the second video (floating object),
we can even lift Aluminium by electrically charging it.
Third video: Falling person. We see again an object falling.
But he does not react to the Earth's magnetic field.
A dipole is affected by Lorentz forces.
Dipoles are also affected by materials in different ways.
A dielectric can the increase attractive force between two objects.
That is why dust clings together.
This is the real-world effect of electrical attraction.
Conducting materials can remove the effect of dipoles.
Even water is conductive.
They either remove the charges (short-cut)
or build up opposite charges (shielding effect).
But better: We can make any electrical fields visible.
Video with 10 ways. part1,
part2
We can make dipoles visible, if any are present.
Almost every experiment shows that gravity is different from electrical forces.
We also do not detect any electrical dipoles around big objects (yes, we can detect them).
You will need to add other things to make it work.
Some are working on entanglement or very small particles.
Even mainstream have their Higgs-field or gravitons.