Velocity SelectorSimulates a velocity selector | |
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Velocity Selector Ranking & Summary
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- License:
- Freeware
- Publisher Name:
- Andrew Duffy
- Operating Systems:
- Windows All
- File Size:
- 1.3 MB
Velocity Selector Tags
- color selector Velocity template selector RGB selector Application Selector theme selector Quotes Selector velocity layer velocity velocity response octave selector pan selector Note Velocity harmonic selector Note Selector velocity effect Velocity Curve Velocity Changer Music Selector MP3 Selector change note velocity printer selector velocity conversion projectile velocity colour bands selector Terminal Velocity Lab code selector state selector Drive Cable Selector Motor Cable Selector calculate velocity Dropdown Selector Table Selector config file selector number selector IP Selector Hotspot Selector velocity sensor keyboard velocity velocity response curve CSS Selector layout selector Velocity Releaser velocity to filter analyze velocity velocity simulation simulate electric field velocity vector file selector right-click selector indentity selector folder selector Velocity Calculator Velocity Sphere electric field view velocity data calculate track-velocity evaluate velocity update selector text selector Apache Velocity template Velocity sensitivity Velocity Made Good FWHM Selector channel selector electric field simulator constant velocity analysis radial velocity method angular velocity analysis phase velocity simulation constant velocity motion conveyor belt velocity display velocity histogram simulate particle velocity particle velocity simulation relative velocity simulate velocity font selector velocity selector simulation study velocity internet velocity
Velocity Selector Description
This Java application enables you to study the region in which there is a uniform electric field and a uniform magnetic field. The fields are perpendicular to one another, and perpendicular to the initial velocity of the charged particles that are passing through the region. The force exerted on a charged particle by the electric field is given by: F = qE. The magnitude of the force exerted by the magnetic field is F = qvB, as long as the velocity is perpendicular to the field. The idea is that, if the two forces are equal and opposite, the net force is zero, and the particle passes through the region without changing direction. With the magnetic force being speed dependent, however, any charges traveling faster or slower than the ones that go straight through will be deflected one way or another out of the beam. You can investigate these concepts with this simulation.
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