pedro es jotos y le gustan los hombre que jotos pedro edwardo centenon
if charge particle is in motion ,then it has magnetic field
A charged particle is accelerated in magnetic field if it has a velocity. F = Q v x B, where v x B is cross-product of speed and magnetic flux vectors. According to Newton F = ma where you can find the acceleration if you know the mass.
The proton is a positively charged subatomic particle
Any charged particle in motion especially not parallel to the magnetic field, current carrying conductor kept inclined or perpendicular to the magnetic field would get deflected. As far as electric field is concerned, even stationary charges would be displaced.
the belts result from charged particles interacting with the magnetic field of the earth and incurring an inward force pulling it into a tighter and tighter spiral as it penetrates deeper into the earth's atmosphere.finally its forward motion is reversed and the particle spirals along the magnetic force line to the other end where a similar reflection occurs. the magnetic field axis is rotated eastward from the geographical axis which provides an unsymetrical magnetic particle distribution in the earth coordinate. solar flares cause large asymmeries in the particle distribution and potentially harmful damage to exposed skin,electronics and particle detectors.
Anytime a particle experiences a change in charge or anytime charged particle travels, a magnetic field a generated.
Anytime a particle experiences a change in charge or anytime charged particle travels, a magnetic field a generated.
when a charged particle is moving with some velocity it produces some magnetic field. If we place that charged particle in presence of external magnetic field it gets affected by that external field.
A charged particle naturally changes direction in a magnetic field. This is because any charged particle produces a magnetic field when it is moving. And if the charged particle is moving through a magnetic field, the two fields (in this case the Earth's and the one created by the moving particle) interact to deflect the particle. The particle will be deflected "to the side" or laterally, and positively charged particles will be deflected in the opposite direction of negatively charged one.
if charge particle is in motion ,then it has magnetic field
Deflecting magnetic forces are concentrated at the earth's magnetic poles where charged particles collide and interact with our atmosphere
particle accelerators work by accelerating a charged particle in a magnetic field where the lines of magnetic flux are such that the particle is accelerated into a circular path. This is so that the force produced by such a motion and magnetic field is perpendicular to both the lines of magnetic flux and the velocity of the particle. The stronger the magnetic field and the faster the particle is moving, the more of a force is required (i.e stronger magnetic field) to keep the particle accelerating. Only a charged particle is affected by a magnetic field so only charged particles can be used inside a particle accelerators (i.e protons and electrons.) neutrons have a charge of zero and are not affected by magnetic fields.
Yes, a moving electron will create a magnetic field. Any moving charge will create a magnetic field around its path of travel. This is the basis for the electromagnetic force, which is one of the four fundamental forces in nature.
It does if it's moving.
Sure, like any moving and charged particle.
If the motion of the particle is parallel to the direction of the field, then the force on the particle will be zero. This is an unstable condition, though. Even the slightest deviation from parallel will give a tiny force to the particle, which nudges it farther away from the parallel direction.
Magnetic field.