9
$\begingroup$

Why doesn't Venus have a magnetic field? How does the speed of rotation affect the magnetic field of a planet?

$\endgroup$
  • $\begingroup$ And, yes speed is important. On Venus, a day - 243 Earth days - is longer than a Venus year - 224 Earth days. $\endgroup$ – Cinaed Simson Jul 19 at 8:33
  • $\begingroup$ The first few seconds of this might be helpful - the faster the spin, the more power generated - youtube.com/watch?v=_VNKNNpCTzs $\endgroup$ – corsiKa Jul 19 at 18:10
8
$\begingroup$

You hit on the answer in your question. Earth's magnetic field is due to circulating currents of molten metal in the core, movement of which is assisted by the Earth's rapid rotation. Venus's slow rotation is the reason behind its negligible magnetic field. However, it does have a very slight magnetic field which is generated by the interaction of the solar wind and currents in the upper atmosphere. It has been suggested that Earth's magnetic field briefly disappears during magnetic reversals, which happen roughly once every 260,000 years, but that has yet to be proved.

$\endgroup$
  • 1
    $\begingroup$ Is the Earth's core also extracting energy from the Earth-Moon system via tidal deformation / friction? I mean, obviously it is, but I wonder if this is a significant contributor to it staying hot. $\endgroup$ – tfb Jul 19 at 10:53
  • 1
    $\begingroup$ The mantle is certainly extracting energy (heat) from tidal deformation, and probably some of this energy infiltrates to the core, but not very much.. $\endgroup$ – Michael Walsby Jul 19 at 11:24
5
$\begingroup$

The Earth does have a magnetic field. It is generated by the current of the flowing molten iron outer core.

Earth's magnetic field, also known as the geomagnetic field, is the magnetic field that extends from the Earth's interior out into space, where it interacts with the solar wind, a stream of charged particles emanating from the Sun. The magnetic field is generated by electric currents due to the motion of convection currents of molten iron in the Earth's outer core: these convection currents are caused by heat escaping from the core, a natural process called a geodynamo.

https://en.wikipedia.org/wiki/Earth%27s_magnetic_field

Now it is a misconception that Venus does not have a magnetic field.

The interesting thing, however, is that spacecraft observations, like the ones made by ESA's Venus Express, have shown that the ionosphere of Venus direct interaction with the solar winds causes an externally induced magnetic field, which deflects the particles from the solar winds and protects the atmosphere from being blown away from the planet. However, the article also explains that the Venus magnetosphere is not as protective as earth's magnetosphere. Measurements of the Venus magnetic field show several similarities, such as deflection of the solar winds and the reconnections in the tail of the magnetosphere, causing plasma circulations in the magnetosphere. The differences might explain the fact that some gasses and water are lost from the Venus atmosphere. The magnetic field of Venus is about 10 times smaller as the earth's magnetic field. The shape of the magnetic field is also different. Earth has a more sharp magnetotail facing away from the sun and Venus has a more comet shaped magnetotail. During the reconnections most of the plasma is lost in the atmosphere.

https://astronomy.stackexchange.com/questions/10189/why-did-venus-not-lose-its-atmosphere-without-magnetic-field

So basically the difference is the source of the magnetic field.

On Earth, it is a flowing current. On Venus, it is the Ionosphere itself.

$\endgroup$

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.