The dynamo effect
The dynamo effect.
Data collected about Jupiter's magnetic field and polar regions provides valuable insights into the planet's composition and dynamics. It helps scientists understand the interaction between Jupiter's magnetic field and its atmosphere, as well as the formation and behavior of its auroras. Additionally, studying Jupiter's magnetic field and polar regions can provide information about the planet's internal structure and its magnetic interactions with its moons.
Earth has a magnetic field weaker than Jupiter but stronger than Venus.Jupiter 4.2 gauss at the equator to 10--14 gauss at the polesEarth less than 30 microteslas (0.3 gauss) at the equator to over 60 microteslas (0.6 gauss) around the polesVenus does not have a magnetic field.
It is a bit more complicated than just the mass, but it has nothing to do with the magnetic field
A magnetic field is caused by flowing currents, but the field lines are not directly related to the flow of electrons or other charged particles. They are simply an abstraction that tells you where the magnetic attraction is strongest, and in what direction it goes.
Jupiters gravitational field strength is 25 Nkg^-1
Yes. To be more accurate, a magnetic field is caused whenever there are moving electrical charges. Even the magnetic field in a permanent magnet are caused by more electrons moving around their atoms in one direction, than in the other.Yes. To be more accurate, a magnetic field is caused whenever there are moving electrical charges. Even the magnetic field in a permanent magnet are caused by more electrons moving around their atoms in one direction, than in the other.Yes. To be more accurate, a magnetic field is caused whenever there are moving electrical charges. Even the magnetic field in a permanent magnet are caused by more electrons moving around their atoms in one direction, than in the other.Yes. To be more accurate, a magnetic field is caused whenever there are moving electrical charges. Even the magnetic field in a permanent magnet are caused by more electrons moving around their atoms in one direction, than in the other.
The dynamo effect.
sunspots are caused by the magnetic fields
Data collected about Jupiter's magnetic field and polar regions provides valuable insights into the planet's composition and dynamics. It helps scientists understand the interaction between Jupiter's magnetic field and its atmosphere, as well as the formation and behavior of its auroras. Additionally, studying Jupiter's magnetic field and polar regions can provide information about the planet's internal structure and its magnetic interactions with its moons.
The earth's magnetic field is caused by convection currents in our core. The core is made out of iron, which is a magnetic metal.
The liquid outer-core.
The Earth's magnetic field is probably caused by convective currents in Earth's interior.
Caused by changes in earth's magnetic field over time, especially reversals of the magnetic poles.
Caused by changes in earth's magnetic field over time, especially reversals of the magnetic poles.
Earth has a magnetic field weaker than Jupiter but stronger than Venus.Jupiter 4.2 gauss at the equator to 10--14 gauss at the polesEarth less than 30 microteslas (0.3 gauss) at the equator to over 60 microteslas (0.6 gauss) around the polesVenus does not have a magnetic field.
Fringing effect is the magnetic characteristic caused by the shape around directly opposing the magnetic surfaces.