KsnOkjoGlH1m9f0Wuh6vCf008gQ

Science is Beauty

Scroll to Info & Navigation

When a longitudinal band of magnetic flux is embedded in a region where the rotation rate varies with latitude, the band will tend to tip under certain conditions. The images above show a computer simulation of such a tipping instability. The left image shows the magnetic field after an initially east-west oriented band has tipped, with orange and blue denoting eastward and westward magnetic flux. The center and right panels show the velocity in the longitudinal direction and the vorticity variation associated with the tipping of the bands. Source: SOLAR CONVECTION AND INTERNAL ROTATION, University Corporation for Atmospheric Research, High Altitude Observatory

When a longitudinal band of magnetic flux is embedded in a region where the rotation rate varies with latitude, the band will tend to tip under certain conditions. The images above show a computer simulation of such a tipping instability. The left image shows the magnetic field after an initially east-west oriented band has tipped, with orange and blue denoting eastward and westward magnetic flux. The center and right panels show the velocity in the longitudinal direction and the vorticity variation associated with the tipping of the bands.

Source: SOLAR CONVECTION AND INTERNAL ROTATION, University Corporation for Atmospheric Research, High Altitude Observatory

Recent comments

Blog comments powered by Disqus

Notes

  1. nameleswonderlove reblogged this from proofmathisbeautiful
  2. nameleswonderlove reblogged this from scienceisbeauty
  3. proofmathisbeautiful reblogged this from scienceisbeauty
  4. theappliedsciences reblogged this from scienceisbeauty
  5. sleepyvee reblogged this from scienceisbeauty
  6. zombiepolarbear reblogged this from scienceisbeauty
  7. nefs reblogged this from scienceisbeauty
  8. gyannmudra reblogged this from scienceisbeauty
  9. scienceisbeauty posted this