the paths radius is due to the amount of voltage that pushes the current flow,and the conductivity of the material. the vector of it ,and all electrical energy produced is magnitude,and direction.What is the motion of a charged particle in the presence of a magnetic field?2 points
Thursday, January 26, 2012
What is the motion of a charged particle in the presence of a magnetic field?
What determines the direction of motion and the path's radius?What is the motion of a charged particle in the presence of a magnetic field?the motion of a charged particle will move magntic south to magnetic north,due to the magnetic north is the source,and the magnetic south is the releaseing point of energy.Just like magnets.Just as the same resons that fallen powerlines trip reclosers,the power wants to go back to the source.The source is like this...look at it like a proton.A proton gives up electrons to fill in gaps lossed by other protons during emf.a charge to a element causes electrons to release,it forces the protons to give up energy so that it(potential energy)in this case a charged electron particle can take it's place.Well the released energy moves to the next proton,and it pushes out the forced amount of energy to replace the it's loss in its valaence shell,and the process continues,thus you have a magnetic field.
the paths radius is due to the amount of voltage that pushes the current flow,and the conductivity of the material. the vector of it ,and all electrical energy produced is magnitude,and direction.What is the motion of a charged particle in the presence of a magnetic field?2 pointscatalytic converter utah weather
the paths radius is due to the amount of voltage that pushes the current flow,and the conductivity of the material. the vector of it ,and all electrical energy produced is magnitude,and direction.What is the motion of a charged particle in the presence of a magnetic field?2 points
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