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review conceptual example 2 as background for this problem. a charged particle moves through a velocity selector at a constant speed in a straight line. the electric field of the velocity selector is 3900 n/c, while the magnetic field is 0.333 t. when the electric field is turned off, the charged particle travels on a circular path whose radius is 4.36 cm. find the charge-to-mass ratio of the particle.

Respuesta :

The electric field is turned off, the charged particle travels on a circular path whose radius is 4.36 cm. The charge-to-mass ratio of the particle 6.819*10⁵ c/kg

F=Fe+Fb=0

qvB=qE

v=E/b

Fr=Fb=qvB=mv²/R

qvb=mv²/R

v=qBR/m

v=E/B

q/m=E/RB²=6.819*10⁵ c/kg

Consequently, an atom can be either positive, negative, or neutral. After receiving an electron from another atom, the charged particle becomes negative. If an electron is removed from it, it becomes positively charged. Applications of charged particles are susceptible to electric field and magnetic field management of their motion and energy. According to this definition, a charged particle is a particle that has an electric charge. At the atomic level, an atom consists of a nucleus that the electrons orbit. Protons and neutrons combine to create the nucleus, which has a positive charge. Any charged atom or molecule is an ion. It has a charge because the atom or molecule's number of protons and electrons is not equal. Positivity can be added to an atom.

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