NASA's Juno probe entered orbit of Jupiter on 5th July.

NASA’s solar powered Juno spacecraft, launched five year ago, is set for a rendezvous with Jupiter, when it enters the orbit of the largest planer in our solar system on 5^th July. The spacecraft eill complete a burn if its main engine, placing it in Jupiter’s orbit, NASA said. During its mission, Juno will circle the Jovian world 37 times, soaring low over the planet’s cloud tops – as close as about 4,100 kilometers. The burn will impart a mean change in velocity of 542 metres per second on the spacecraft.

Juno will probe beneath the obscuring cloud cover of Jupiter and study its auroras to learn more about the planet’s origins, structure, atmosphere and magnetosphere. The progress will be monitored by the mission teams at NASA’s Jet propulsion Laboratory and Lockheed Martin Space Systems in the US via signal reception by Deep Space Network antennas in California and Australia.

After the main engine burn, Juno will be in orbit around Jupiter. The spacecraft will spin down from 5 to 2 revolutions per minute, turn back toward sun, and ultimately transmit telemetry via its high gain antenna. Juno will start its tour of Jupiter in a 53.5 day orbit. The spacecraft saves fuel by executing a burn that places it in a capture orbit instead of going directly for the 14 day orbit that will occur during the mission’s primary science collection period. The 14 day orbit phase will begin after the final burn of the mission for Juno’s main engine on October 19.

“Jupiter is spectacular from afar and will be absolutely breathtaking from close up,” said Scott Bolton, principle investigator of Juno from the Southwest Research Institute in San Antonio, location in the US. Juno’s name comes from Greek and Roman mythology. The mythical god Jupiter drew a veil of clouds around himself to hide his mischief, and his wife – the goddess Juno – was able to peer through the clouds and unveil Jupiter’s true nature.

'Bionic' cardiac patch developed

Harvard scientists have developed a new “bionic” cardiac patch – nanoscale electronic scafforlds seeded with cardiac cells – that can act like a pacemaker. Doctors in recent years have made vast leaps in the treatment of cardiac problems – particularly with the development of “cardiac patches,” swaths of engineered heart tissues that can replace heart muscle damaged during a heart attack. “I think one of the biggest impacts would ultimately be in the area that involves replacement of damaged cardiac tissue with pre-formed tissue patches,” said Charles Lieber, from Harvard University. The bionic patch could act like a pacemaker – delivering electrical shocks to correct arrhythmia, Lieber said.

Using sewage sludge to make concrete?

Dried sewage sludge could be recycled by adding it to cement to make concrete, scientists in Malaysia have discovered. Sludge is what’s left after treating sewage water. Sludge disposal options are limited in Malaysia due to strict environmental norms, including a ban in burying it in soil due to the high heavy metal content. According to the researchers from University technology MARA, while there is a “potential” to use dried sludge to make concrete, more research is needed to yield a better quality product.

NASA is sending a 3D printer and a fire starter to the ISS

While NASA creates with one hand, it destroys with other. The next supply ship for the International Space Station will carry an advanced 3D printer and a test of how fire spreads in space when it blasts off from Cape Canaveral, Florida. The unscrewed Cygnus spacecraft is the fifth cargo delivery by spacecraft firm Orbital ATK and the second since one of the company’s rockets exploded on launch in 2014. In addition to carrying food, water and other regular supplies to the ISS, the craft will loft the Additive Manufacturing Facility, an upgraded version of the 3D printer already in use on the station. The printer that’s already up there is basically a prototype. The second printer will be able to print with multiple materials, has about eight times the print volume and faster with higher resolution. NASA will use the printer to manufacture objects in orbit, but made in space will also take orders from other paying customers who want to access to the ISS. Launching anything to the ISS is expensive and you have to wait for room on spacecraft like Cygnus, but plans for 3D printers can simply be emailed – it’s the closest thing we’ve got to teleportation. Eventually, made in Space plans to produce entire satellites. Also launching on Cygnus is NASA’s Spacecraft Fire Experiment, or Saffire. Once the spacecraft has reached the ISS and been unloaded by the astronauts, it will be stuffed full if waste and sent back down to Earth to burn up in the atmosphere. On the way down NASA researchers will start a fire inside a 1 meter-long box inside the craft and watch how it behaves. It will be the largest manmade fire ever created in space, and understanding how it spreads will help NASA design safety features to mitigate the risk of fire in crewed spacecraft.