![]() ![]() The movement of the charged particles in some circumstances can lead to complicated situations when there is the interaction between the many charges. But if the movement of the charged particle is in the opposite direction then it will experience the deceleration.ĭepending on Situation Movement May Get Complicated The velocity of the particle will be increased if it is moving in the direction of the electric field vector. This the direction that causes the acceleration of the charged particle. The electric field has both directions such as negative and positive. The electric field that is present between the two oppositely charged plates that are parallel to each other is approximately the uniform field. Due to this reason, the speed and kinetic energy of the particle remains constant. As the magnetic force is always perpendicular to the velocity, so it does not cause any sort of work on the charged particle. ![]() The radius of the path can be used for the determination of the mass, energy, and charge of the particle. ![]() There exists a strong magnetic field that is perpendicular to the page and it causes the movement of the particles in the curved path. The high energy charged particles produce the trials of the bubbles, by moving through the superheated liquid nitrogen, in the bubble chamber. As shown in the above diagram, the bubble chamber photograph has the charged particles that are present in the magnetic field, and it is the basis of this phenomenon that can be analyzed by using the spectrophotometer. ![]()
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