Earth's Magnetic Field Is Up To Some Seriously Weird Stuff And No One Knows Why – IFLScience

  1. Earth’s Magnetic Field Is Up To Some Seriously Weird Stuff And No One Knows Why  IFLScience
  2. Earth’s magnetic field is mysteriously acting up, pushing North Pole towards Siberia  RT
  3. Scientists warn Earth’s magnetic North Pole has begun moving erratically at speeds of 50km a year  Daily Mail
  4. Magnetic north pole is changing faster than forecast  Deutsche Welle
  5. Earth’s Magnetic Field Is Behaving Erratically, Baffling Scientists  Futurism
  6. View full coverage on Google News


Source: Google News

Xiaomi's Mi Mix 3 is an all-screen magnetic slider phone with 10GB of RAM

  1. Xiaomi’s Mi Mix 3 is an all-screen magnetic slider phone with 10GB of RAM  Ars Technica
  2. New Android flagship from China has a whopping 10GB of RAM  BGR
  3. Xiaomi’s Mi Mix 3 Really Does Have Zero Bezel, Thanks to Slideout Cameras  Droid Life
  4. Xiaomi’s all-screen Mi Mix 3 slider comes with up to 10GB RAM  Engadget
  5. Full coverage


Source: Google News -Technology

It's about time! A USB-C magnetic charger for the Apple Watch has finally arrived

  1. It’s about time! A USB-C magnetic charger for the Apple Watch has finally arrived  Digital Trends
  2. Apple just released a new kind of Apple Watch charger, and it hints at a major feature rumored to be coming to iPads  Business Insider
  3. Apple Watch embraces USB-C with new charging cable  The Verge
  4. Full coverage


Source: Google News -Technology

Algorithm accurately predicts how electromagnetic waves and magnetic materials interact

Engineers have developed a new tool to model how magnetic materials, which are used in smartphones and other communications devices, interact with incoming radio signals that carry data. It accurately predicts these interactions down to the nanometer scales required to build state-of-the-art communications technologies.
Source: Science Daily

Electric and magnetic domains inverted by a magnetic field

Electric and magnetic domains inverted by a magnetic field

Electric and magnetic domains inverted by a magnetic field, Published online: 22 August 2018; doi:10.1038/d41586-018-05982-5

Certain materials contain both electric dipoles and magnetic moments. An experiment demonstrates that these properties can be coupled in previously unrecognized ways, leading to advanced functionality.
Source: Nature

Electric and magnetic domains inverted by a magnetic field

Electric and magnetic domains inverted by a magnetic field

Electric and magnetic domains inverted by a magnetic field, Published online: 22 August 2018; doi:10.1038/d41586-018-05982-5

Certain materials contain both electric dipoles and magnetic moments. An experiment demonstrates that these properties can be coupled in previously unrecognized ways, leading to advanced functionality.
Source: Nature

Link between magnetic field strength and temperature

Researchers recently discovered that the strength of the magnetic field required to elicit a particular quantum mechanical process corresponds to the temperature of the material. Based on this finding, scientists can determine a sample’s temperature to a resolution of one cubic micron by measuring the field strength at which this effect occurs. Temperature sensing is integral in most industrial, electronic and chemical processes, so greater spatial resolution could benefit commercial and scientific pursuits.
Source: Science Daily

Magnetic gene in fish may someday help those with epilepsy, Parkinson's

An aquarium fish that senses the Earth’s magnetic field as it swims could help unlock how the human brain works and how diseases such as Parkinson’s and other neurological disorders function. Scientists have discovered a navigational gene in glass catfish called the electromagnetic-perceptive gene, or EPG, that responds to certain magnetic waves. They’ve already developed a way to use it to control movement in mice.
Source: Science Daily

Magnetic nanoparticles deliver chemotherapy to difficult-to-reach spinal tumors

Researchers have demonstrated that magnetic nanoparticles can be used to ferry chemotherapy drugs into the spinal cord to treat hard-to-reach spinal tumors in an animal model. The unique delivery system represents a novel way to target chemotherapy drugs to spinal cancer cells, which are hard to reach because the drugs must cross the blood-brain barrier.
Source: Science Daily