The Interplanetary Magnetic Field
I saw several people were reading this today and thought more of you might want to read this too. I think the more people know about the Interplanetary magnetic field, the Magnetosphere of Earth and how all these things interrelate with Solar Flares, the more people will still be able to have kids here on earth and not be sterilized permanently over time by the weakening of our magnetosphere just like Mars' magnetosphere is very weakened now too. For example, if you lived on the surface of Mars you would never be able to have children unless you lived at least 3 feet underground to protect you from cosmic rays sterilizing you. Also, you wouldn't be able to travel through space and have children once you got there either. Also, plants might not grow well there or at all because of a weakened magnetosphere too. So, in order to grow anything it might have to be grown with grow lights 3 feet or more underground with the power generated by the sun on the surface.
Friday, November 23, 2012
The Interplanetary Magnetic Field
It comes from the Sun!
back to spaceweather.com
During solar minimum the Sun's magnetic field, like Earth's, resembles that of an iron bar magnet, with great closed loops near the equator and open field lines near the poles. Scientists call such a field a "dipole." The Sun's dipolar field is about as strong as a refrigerator magnet, or 50 gauss. Earth's magnetic field is 100 times weaker.
During
the years around solar maximum (2000 and 2001 are good examples)
spots pepper the face of the Sun. Sunspots are places where intense
magnetic loops -- hundreds of times stronger than the ambient
dipole field -- poke through the photosphere. Sunspot magnetic
fields overwhelm the underlying dipole; as a result, the Sun's
magnetic field near the surface of the star becomes tangled and
complicated.The Sun's magnetic field isn't confined to the immediate vicinity of our star. The solar wind carries it throughout the solar system. Out among the planets we call the Sun's magnetic field the "Interplanetary Magnetic Field" or "IMF." Because the Sun rotates (once every 27 days) the IMF has a spiral shape -- named the "Parker spiral" after the scientist who first described it.
Above: Steve Suess (NASA/MSFC) prepared this figure, which shows the Sun's spiraling magnetic field from a vantage point ~100 AU from the Sun.
Earth has a magnetic field, too. It forms a bubble around our planet called the magnetosphere, which deflects solar wind gusts. (Mars, which does not have a protective magnetosphere, has lost much of its atmosphere as a result of solar wind erosion.) Earth's magnetic field and the IMF come into contact at the magnetopause: a place where the magnetosphere meets the solar wind. Earth's magnetic field points north at the magnetopause. If the IMF points south -- a condition scientists call "southward Bz" -- then the IMF can partially cancel Earth's magnetic field at the point of contact.
Above: Earth's magnetosphere. From the Oulu Space Physics Textbook.
Southward Bz's often herald widespread auroras, triggered by solar wind gusts or coronal mass ejections that are able to inject energy into our planet's magnetosphere.
Back to spaceweather.com
This has all been a quote from:
spaceweather.com
The concept of an Interplanetary Magnetic Field is a new one tonight for me. I wasn't sure something like this even existed before, even though it is quite logical that it existed since the sun has existed. It's a pretty amazing voyage of discovery regarding how the Sun keeps the whole Solar System functioning the way it does in so many ways.
Conceptually, this likely also means that there are these types of magnetic fields for all stars. It could also mean that these magnetic fields are there in fields related to more than one star in a group and possibly even a magnetic field that holds the whole galaxy together which we also would be a part of here in the Solar System.
Also, we presently are in a solar Maximum that will last from around 2012 to 2014 or 2015.
Since this particular Solar Maximum is so intense it reminds scientists of the one that created the Carrington Event in 1859.
