California, Palo Alto, Stanford University, Institute of chanical Engineering.
Mike Bellagar and Jane-Ja were in the lab, studying the circular device that had been constructed on the side.
The circular device looked very high-end, with dense coils underneath, thick glass vessels, and a plethora of unknown tals surrounding it. The silver tal loaded in the glass vessels was glowing, and above it was a super-thin plastic ball suspended in the air.
If seen by ordinary people, they would surely be amazed by the sight before them, but Bellagar and Ja had faces full of confusion. They kept circling around the device, their brows deeply furrowed.
"This is impossible!"
Bellagar said, "We’ve already completed the repeat experints of superconducting antigravity, but at most, gravity was reduced by ten percent. First, such a large device would need to float, which theoretically requires reducing gravity by at least over seventy percent."
Ja shook her head, "Seventy percent is not enough. Judging from the exposed photos, that big fellow weighs at least one hundred tons, maybe three hundred, five hundred, or even more. Yet the flas erging from beneath the disc are minimal. It uses thrusters, but likely just for maintaining balance."
Bellagar, thinking it over, said, "Maybe the antigravity effect would push the air upward, providing so lift."
Ja grimaced, "Do you believe wind could lift a device weighing hundreds of tons?"
"After reducing gravity, it’s only a few tens of tons," Bellagar stood by his statent.
Ja pursed her lips, "Okay, as you said, reducing gravity by seventy percent, but we still can’t do it."
"...sigh!"
"Sigh!"
The superconducting antigravity device was right before their eyes.
Stanford University has always been committed to the research of antigravity, investing one hundred million dollars annually, and the research has been making progress.
In fact, even before the release of Li Ning’s superconducting antigravity theory, there were already experintal findings related to the ’absence of gravity,’ which were thought to be caused by a ’mysterious electronic thrust.’
More than twenty years ago, scientists from M Country and Country E were already exchanging aerospace technology and discussing a thrust generator capable of controlling gravity.
They believed such research could bring epoch-making impacts to the developnt of aircraft and might lead to the invention of a new type of weapon.
At the sa ti, M Country’s NASA, Boeing, and other renowned research institutions began to get involved in related research.
Stanford University was among them.
Last year, an M Country interdisciplinary technology company claid they had designed a so-called "lifter." The "lifter" was made using a light wooden rod to create a triangular fra, with a wire attached to the rod and surrounded by tal foil.
As long as positive electricity was connected to the wire and negative electricity to the tal foil, the lifter would float off the table and rise into the air.
The "lifter" was initially conceived when one of the company’s electro-optical engineers was conducting a laser experint.
In the laser he was testing, there were similar components of wire and tal foil. He discovered that as soon as the electricity was connected, the tal foil exhibited inexplicable twisting movents.
He then found that if a triangle made from a wire and a tal foil was used as one unit, a larger and heavier "aircraft" could be made through the combination of multiple such units. Its shape did not need to be aerodynamically designed, nor did it require moving parts; it could rise into the air simply with an electric current.
Latter, a French physicist replicated the experint in his own lab and made a quantitative asurent of the so-called "lift." In an interview, he said, "My ’lifter’ can accelerate upward quickly and hover very stably in the air."
Now the question arose—
What force was lifting the "lifter" into the air?
Existing physics could not explain the lifter, and related research attracted a great deal of attention.
Then ca the experintal findings of Zhao Yi and Li Ning.
They published their experintal results together and also presented related theoretical research, indicating that the spin of ionic lattices could generate an antigravity effect.
This theory perfectly explained the experintal phenona discovered earlier.
Because of this, Stanford University increased its investnt in antigravity research, even inviting Li Ning to lecture at the university with the hope of hiring him as a professor, which he refused. He had only agreed to visit Stanford University to give related reports and lectures.
Li Ning’s reason for refusal was simple; he always wanted recognition, but given his age and being close to retirent, there was no need to change environnts and work sowhere else.
Stanford University’s related research could only rely on the theories of Zhao Yi and Li Ning, conducting replication experints based on them and continuing to expand upon this foundation.
Mike Bellagar and Jane-Ja were at the core of Stanford University’s antigravity research. They conducted replication experints together and were very successful. The devices they designed had even better effects than the ones published by Zhao Yi and Li Ning.
They always believed that their research was at the cutting edge.
An antigravity effect up to ten percent was an incredibly astonishing figure, enough to lift sheets, plastic balls, directly into the air, not to ntion balloons.
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