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you would induce voltage therefore chanfing the magnetic field

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13y ago

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What does a changing electric field induce?

A changing electric induces changing electric fields:The law of Electromagnetism is Invariance of the Electromagnetic field. The vector or induction portion is "o = dEv/dr + Del Er + DelxEv = dEv/cdt + Del Er + Del x Evthis is the same law as Faraday's law but it includes the Gradient Del Er0= dBv/dt + Del Er + Del xEv


What is jupiters magnetic field caused by?

Jupiter's magnetic field is caused by the convection of liquid metallic hydrogen in its outer core. This creates electric currents that produce the magnetic field. Jupiter's rapid rotation also plays a role in generating its strong magnetic field.


What is the difference between a mordent and a trill in music?

A mordent is a quick ornament where a note is played with a rapid alternation with the note above or below it, while a trill is a rapid alternation between two adjacent notes.


The weak magnetic field around mercury suggests what?

The weak magnetic field around Mercury suggests that the planet likely has a liquid outer core. This liquid outer core, combined with the planet's rapid rotation, is thought to generate a magnetic field. However, Mercury's magnetic field is significantly weaker than Earth's due to its smaller size and slower rotation.


3 different ornaments used by Baroque composers and explain what they are?

Trill - rapid alternation between two note Mordent - rapid alternation of a single note appoggiaturas - music ornament not necessary to carry the melodic line but clashes with the accompanying chord.


What does a rapid change of a magnetic field induce?

It does not have to be positive or negative either one will produce reversal of the voltage applied by a factor


What planets have a strong magnetic field?

The planets with strong magnetic fields include Jupiter, Saturn, Uranus, and Neptune. Jupiter has the strongest magnetic field of any planet in the solar system, generated by its rapid rotation and large metallic hydrogen core. Saturn also has a significant magnetic field, while Uranus and Neptune have more complex and tilted magnetic fields, likely due to their unique internal structures. In contrast, Earth has a moderate magnetic field, while Mercury and Venus have very weak or negligible magnetic fields.


What makes the rapid-decay theory more scientifically valid than the dynamo theory?

The rapid decay theory explains the decrease in the strength of the earth's magnetic field better then the dynamo theory. Although the dynamo theory explains the explains the reversals where the field pointed in the opposite directions better. The rapid decay theory allows for it, but only if there is an event of cataclysmic volcanic and geological activity. The rapid decay theory also explains the magnetic fields on the other planets correctly.


What makes the rapid decay theory more scientifically valid than the dynamo Theory?

The rapid decay theory explains the decrease in the strength of the earth's magnetic field better then the dynamo theory. Although the dynamo theory explains the explains the reversals where the field pointed in the opposite directions better. The rapid decay theory allows for it, but only if there is an event of cataclysmic volcanic and geological activity. The rapid decay theory also explains the magnetic fields on the other planets correctly.


Planets from Weakest to strongest in magnetic field?

The planets in our solar system can be ranked by their magnetic field strength from weakest to strongest as follows: Venus (virtually non-existent), Mars (weak and patchy), Earth (moderate and well-defined), and Neptune and Uranus (both have strong magnetic fields, though misaligned with their rotation axes). Jupiter has the strongest magnetic field of all, significantly more powerful than Earth's, due to its large size and rapid rotation. Saturn's magnetic field is also strong, but weaker than Jupiter's.


Why does the earth have the strongest magnetic field among the terrestrial worlds?

It is the only one that has both a partially molten metallic core and reasonably rapid rotation.


Why do you expect neutron stars to have a powerful magnetic field?

Neutron stars are expected to have strong magnetic fields because they are formed from the collapsed cores of massive stars, which inherently had strong magnetic fields. As the core collapses, conservation of magnetic flux leads to an intense magnetic field in the neutron star. Additionally, the rapid rotation of neutron stars can amplify their magnetic fields through processes like dynamo action.