Scientists create cyborg jellyfish with a device that helps them swim THREE TIMES

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Scientists create cyborg jellyfish with a device that helps them swim THREE TIMES faster by sending electric shocks through their body

  • The prosthesis sends electric shocks through the jellyfish to help her swim three times faster
  • The device is coated with a waterproof plastic film and housed with cork weights.
  • The technology includes a mini processor, lithium battery and two electrodes.
  • Experts plan to add sensors to underwater exploration technology

Scientists have given jellyfish super powers.

The team designed a microelectronic prosthesis that helps creatures swim three times faster than their unmodified counterparts, while using less metabolic energy.

The device measures approximately two centimeters in diameter and is attached to the body with a small wooden pick.

The researchers involved in the project plan to equip jellyfish with sensors, so they can explore and collect information about the ocean.

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The team designed a microelectronic prosthesis that helps the creature swim three times faster, while using less metabolic energy from its unmodified counterparts. The device measures approximately two centimeters in diameter and is attached to the body with a small wooden pick.

The team designed a microelectronic prosthesis that helps the creature swim three times faster, while using less metabolic energy from its unmodified counterparts. The device measures approximately two centimeters in diameter and is attached to the body with a small wooden pick.

Dabiri, Xu, leader of the study, said: ‘Only 5 to 10 percent of the volume of the ocean has been explored, so we want to take advantage of the fact that jellyfish are already everywhere to make a leap from measurements based on ships. , which are limited in number due to their high cost. “

“ If we can find a way to direct these jellyfish and also equip them with sensors to track things like ocean temperature, salinity, oxygen levels, etc., we could create a truly global ocean network where each of the robots Jellyfish costs a few dollars to instrument and feed on energy from dams that are already in the ocean. ‘

The prosthesis is coated with a waterproof plastic film and housed with cork weights to keep it neutrally floating.

The technology consists of a mini processor, lithium polymer battery and two LED electrodes to visually indicate stimulation.

The prosthesis is coated with a waterproof plastic film and housed with cork weights to keep it neutrally floating. The technology consists of a mini processor, lithium polymer battery and two LED electrodes to visually indicate stimulation.

The prosthesis is coated with a waterproof plastic film and housed with cork weights to keep it neutrally floating. The technology consists of a mini processor, lithium polymer battery and two LED electrodes to visually indicate stimulation.

The prosthesis is coated with a waterproof plastic film and housed with cork weights to keep it neutrally floating. The technology consists of a mini processor, lithium polymer battery and two LED electrodes to visually indicate stimulation.

Jellyfish use a pulsating movement to swim two, which moves them about two centimeters per second.

The team is using an electric pulse to push the creatures faster through the water, which they compare with a “cardiac pacemaker.”

The animals’ pulse accelerated, producing a corresponding increase in their swimming speed to about 4 to 6 centimeters per second.

It was also discovered that shaking helped to swim more efficiently, since they used only twice as much energy to do so (measured by the amount of oxygen consumed by the animals while swimming).

“In fact, jellyfish equipped with prostheses were more than 1,000 times more efficient than swimming robots,” Xu explained.

“We have shown that they are able to move much faster than normal, without excessive cost in their metabolism,” says Xu.

Jellyfish use a pulsating movement to swim two, which moves them about two centimeters per second. The team is using an electric pulse to push creatures faster through the water, which they compare with a 'cardiac pacemaker'

Jellyfish use a pulsating movement to swim two, which moves them about two centimeters per second. The team is using an electric pulse to push creatures faster through the water, which they compare with a 'cardiac pacemaker'

Jellyfish use a pulsating movement to swim two, which moves them about two centimeters per second. The team is using an electric pulse to push creatures faster through the water, which they compare with a ‘cardiac pacemaker’

The team also notes that fleas do not harm jellyfish. These creatures secrete a mucus when stressed, but “no such secretion was observed in this experiment.”

‘This reveals that jellyfish have an untapped ability to swim faster and more efficiently. They just don’t usually have a reason to do it.

The team also notes that fleas do not harm jellyfish.

These creatures secrete a mucus when stressed, but “no such secretion was observed in this experiment.”

And the jellyfish swam normally once the prosthesis was removed.

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