The face for fourth is between United, City and West Ham.
Manchester United revitalised their push for Champions League football with a derby win over City on Sunday.
A point behind City in fourth, they’ve got eight games to leap-frog Manuel Pellegrini’s side and fight off the challenge of West Ham.
Louis van Gaal insists he’s still confident of securing a top-four finish because United still have five home games to come. Five of City’s last eight are away from the Etihad Stadium.
United’s best run in the Premier League this season is three straight wins over Liverpool, Southampton and Sunderland in September. It’s likely they will have to better that between now and the end of the season to earn a place in next season’s Champions League.
There's a new soft and squishy robot in town, and it's ready for some serious underwater business.
Meet "Squishy Fingers," a new remotely operated vehicle designed to delicately grab and take samples of coral. The ROV, described in a Jan. 20 study in the journal Soft Robotics, will help researchers collect specimens from deep underwater reefs without damaging the corals' fragile bodies.
"If we're going to go down and study these systems, then we should be as gentle as we possibly can," said study co-senior author David Gruber, an associate professor of biology at Baruch College in New York City and a National Geographic emerging explorer. [Marine Marvels: Spectacular Photos of Sea Creatures]
Squishy Fingers gathering samples ofDendronephthya (A) with an insert showing the collected coral on the ship's deck. Below (B), the boa-type gripper collects coral 328 feet (100 meters) underwater. Credit: Galloway KC et al. Soft Robotics. 2016.
Until now, coral researchers used clunky and rigid ROVs originally developed for the oil and gas industries. These vehicles' stiff arms were made to do heavy work, such as turning pipes off and on, rather than plucking tiny organisms off a coral reef.
"These arms can generate lifting and gripping forces up to 500 lbs.-force [227 kilograms-force] and are not optimal for delicate specimen collection," the researchers wrote in the study.
Enter soft robotics expert Robert Wood, study co-senior author and a professor of engineering and applied sciences at Harvard University.
"Rob was looking at the [ROV], and he was like, 'Oh my God, that's how you guys are collecting stuff? That doesn't look very effective,'" Gruber recalled.
So the two assembled a team and got to workdesigning "Squishy Fingers," an ROV with a soft but firm grasp. The team took inspiration from sea creatures, such as the tube worm and the snake (which can wrap itself about things).
The final fingers are largely made of memory foam, silicone rubber, fiberglass and Kevlar fibers.
Humans can't safely scuba dive beyond 330 feet (100 meters) of water, so it's important that Squishy Fingers can dive deeper and retrieve hard-to-reach creatures, Wood told National Geographic. So far, the joystick-controlled squishy robot has successfully completed a dive at about 0.6 miles (1 kilometer) depth, but the researchers hope to design an upgrade that can reach 3.7 miles, or 3,168 feet (6 km), Gruber said.
A diagram showing the innards of the Squishy Fingers robot. Credit: Galloway KC et al. Soft Robotics. 2016.
Eventually, the team hopes to create a "Squishy Arms" robot that has a greater capacity to collect deep-sea organisms, he added.
The specimens collected by these squishy ROVswill help researchers study the genomes and proteins of mysterious underwater plants and animals, as well as identify new species, Gruber said.
"It's one thing to just see them, but you can't identify a new species just by looking at it or just by taking a new picture," Gruber told Live Science. "Sometimes you need to take one sample, or even get things like a vein biopsy sample in order to sequence its genome." Follow Laura Geggel on Twitter @LauraGeggel. Follow Live Science@livescience, Facebook & Google+. Original article on Live Science.
As a staff writer for Live Science, Laura Geggel covers general science, including the environment and amazing animals. She has written for the Simons Foundation, Scholastic, Popular Science and The New York Times. Laura grew up in Seattle and studied English literature and psychology at Washington University in St. Louis before completing her graduate degree in science writing at NYU. When not writing, you'll find Laura playing Ultimate Frisbee. Follow Laura on Google+.
