What would happen to me if i were in the middle? Probably just a little bit of flying, not much. Right?
@ericakreh9461
8 ай бұрын
😆
@SMILEY.45
7 ай бұрын
We used to do this in our round pool with the inflatable ring at the top. We would jump up and down until the waves got going and it would shoot upwards in the center.
@jeandelenfant
8 ай бұрын
Ye climax?
@sieben5163
Жыл бұрын
finally, creeper world 4 physics into real life
@dylantorres7655
Жыл бұрын
Im ur 800th subscriber
@ItzDrxpshot
6 жыл бұрын
HOW FLOWAVE WORKS The heart of FloWave is a 100-foot (30 metres) circular concrete basin containing the 82-foot (25 metres) diameter wave and current tank. The 16-foot (five metres) deep tank contains 2.4 million litres (530,000 gallons) of fresh water and is ringed by 168 absorbing wave makers. Additionally, 28 submerged flow-drive units can simultaneously and independently drive current across the tank in any relative direction, with maximum current velocities of 5.2 feet (1.6 metres) per second. A rising tank floor and overhead crane enable quick and easy installation of individual devices, or arrays of wave or tidal current generators. The pool is 82 feet (25 metres) across and 6.6 feet (two metres) deep. It recreates waves and currents from coastlines around the UK, Europe and beyond. Its full name is the FloWave Ocean Energy Research Facility and it can simulate scale version equivalents of waves up to 92 feet (28 metres) high with currents of up to 14 knots using 2.4 million litres (530,000 gallons) of water. The facility is designed for researchers and industrial partners to develop and refine full-scale devices such as wave and tidal energy converters. It can also be used to test floating offshore wind platforms and vessels to install and maintain offshore projects. By testing devices at scale in a tank, researchers can achieve milestones in days or weeks compared with months or years in open water. This accelerated development could bring clean energy products to market more quickly and cost-effectively, at lower risk. Terrifying 'swimming pool' which recreates oceans in the lab Loaded: 0%Progress: 0%0:00 Play Current Time 0:00 / Duration Time 2:34 Fullscreen Animation credit to FloWave, Edinburgh Designs Ltd and Dunedin Arts The pool can simulate scale version equivalents of waves up to 92 feet (28 metres) high and currents of up to 14 knots using 2.4 million litres (530,000 gallons) of water in an 82-foot (25 metres) diameter circular pool. Here a crowd watches as the pool generates waves during a demonstration The pool can simulate scale version equivalents of waves up to 92 feet (28 metres) high and currents of up to 14 knots using 2.4 million litres (530,000 gallons) of water in an 82-foot (25 metres) diameter circular pool. Here a crowd watches as the pool generates waves during a demonstration The pool can be used to generate fast currents and high waves. Its currents can go as fast as an Olympic swimmer while its waves can reach up to nine stories high. This allows underwater wind turbines and other technologies to be tested more easily than they can be tested at sea The pool can be used to generate fast currents and high waves. Its currents can go as fast as an Olympic swimmer while its waves can reach up to nine stories high. This allows underwater wind turbines and other technologies to be tested more easily than they can be tested at sea The £9.5 million ($16.3 million) FloWave facility was funded by the Engineering and Physical Sciences Research Council (EPSRC) and the University of Edinburgh. ‘We are delighted to mark the official launch of this pioneering facility, which will speed the development of devices to harness wave and current power, and further enhance the University’s position as a centre of excellence in marine energy research,’ said Professor Sir Timothy O’ Shea, Principal of the University of Edinburgh. Professor Philip Nelson, Chief Executive of the Engineering and Physical Sciences Research Council, added: ‘EPSRC’s investment in the FloWave facility will help keep the UK at the forefront of marine energy technology research and development. ‘Research here can accelerate the deployment of these technologies which, in turn, will help us meet our low-carbon targets, create jobs and boost growth.’ The facility is designed for researchers and industrial partners to develop and refine full-scale devices such as wave and tidal energy converters. It can also be used to test floating offshore wind platforms and vessels to install and maintain offshore projects
@Cline3911
Жыл бұрын
This is a next level, supercharged, version of the kiss of Poseidon.
@Bru2712
8 жыл бұрын
Anybody knows how is such spike caused?
@Augustum19999
8 жыл бұрын
Shift of energy towards one point.
@Bru2712
8 жыл бұрын
+Usman Maraj mathematicaly
@TheUFOeffect2
8 жыл бұрын
i'm just going to assume a superposition of concentric peaks reaching the center at once.
@SiTides
7 жыл бұрын
they are causing resonance with the frequency of the wave
@planeloverpilot4802
11 ай бұрын
constructive interference of 2 coherent sources of waves
@spagamoto
6 жыл бұрын
Beautiful demonstration of what I imagine is constructive interference. Though... does it make anyone else kind of inexplicably uncomfortable? Must have been the boxed pizza.
@Rugged-Mongol
Жыл бұрын
Poseidon's Kiss.
@CafeenMan
Жыл бұрын
This is what happens when you give interdimensional portals to children. "Ooo!!!! Let's make big waves!!!"
Пікірлер: 27