Post by Pincho Paxton on Feb 27, 2024 19:13:35 GMT
Scientists closer to solving mysteries of universe after measuring gravity in quantum world
Pincho says...
No they haven't, because there's no such thing as a gravitational pull. This story is the same as The Emperor's New Clothes. Scientists were told that they could see a pull force, and now they think they can see a pull force, but they can't.
Ok so how then can you possibly observe a pull force from that setup?
No it measures the movement of a particle not the weak pull on a particle.
You are pushing the boundaries of belief to say that you observed a pull force.
There is no such thing as a pull force, gravity flowed into a hole in the particle, and moved it from the back, not the front, so the particle was 'pushed'. All observations of force are from high pressure towards low pressure even if we say the word 'pull' When I pull something with my hand it is behind the thing that I am moving every time. There are no observable forces that happen from the front.. ever. If I suck milk through a straw I create low pressure at the front, the milk is pushed from the back. A vacuum cleaner, low pressure at the front, blow out at the back, a pressure gradient. A magnet blows out at the back, a pressure gradient. what does the magnet blow out? Gravity! Gravity moves towards a pressure gradient in gravity, and that is all we ever observe. To use pull forces is to ignore observation, and for someone to make a study that ignores observation is to create a delusion. The Emperor's New Clothes
Pincho Paxton
But now physicists at the University of Southampton, working with scientists in Europe, have successfully detected a weak gravitational pull on a tiny particle using a new technique.
Pincho says...
No they haven't, because there's no such thing as a gravitational pull. This story is the same as The Emperor's New Clothes. Scientists were told that they could see a pull force, and now they think they can see a pull force, but they can't.
Their study used a sophisticated setup involving superconducting devices, known as traps, with magnetic fields, sensitive detectors and advanced vibration isolation.
Ok so how then can you possibly observe a pull force from that setup?
It measured a weak pull, just 30aN, on a tiny particle 0.43mg in size by levitating it in freezing temperatures a hundredth of a degree above absolute zero -- about minus-273 degrees Celsius.
No it measures the movement of a particle not the weak pull on a particle.
He added: "We are pushing the boundaries of science that could lead to new discoveries about gravity and the quantum world.
You are pushing the boundaries of belief to say that you observed a pull force.
There is no such thing as a pull force, gravity flowed into a hole in the particle, and moved it from the back, not the front, so the particle was 'pushed'. All observations of force are from high pressure towards low pressure even if we say the word 'pull' When I pull something with my hand it is behind the thing that I am moving every time. There are no observable forces that happen from the front.. ever. If I suck milk through a straw I create low pressure at the front, the milk is pushed from the back. A vacuum cleaner, low pressure at the front, blow out at the back, a pressure gradient. A magnet blows out at the back, a pressure gradient. what does the magnet blow out? Gravity! Gravity moves towards a pressure gradient in gravity, and that is all we ever observe. To use pull forces is to ignore observation, and for someone to make a study that ignores observation is to create a delusion. The Emperor's New Clothes
Pincho Paxton