An electronic with q =-1.6x10^-19C and m=9.11x10^-31kg approaches a uniform magnetic field with strength B = 1.39T as shown in picture. Particle approaches magnetic field with speed of V=325m/s. A) using the right hand rule determine the direction in which particle will rotate in the magnetic field and draw the proper circle with direction on diagram above. Explain reason for direction. B) calculate the period of rotation,T that the electron will aquire when moving in the magnetic field. C) calculate radius R of the circular path transverse by moving electron. D) what is the magnitude of the magnetic force felt by the particle as it moves in the magnetic field? E) using second picture. Describe the motion of a second electron that approaches the magnetic field with a velosity show in picture 2. Use diagram and few words to describe the motion and how it differs from that of the first electron
An electronic with q =-1.6x10^-19C and m=9.11x10^-31kg approaches a uniform magnetic field with strength B = 1.39T as shown in picture. Particle approaches magnetic field with speed of V=325m/s.
A) using the right hand rule determine the direction in which particle will rotate in the magnetic field and draw the proper circle with direction on diagram above. Explain reason for direction.
B) calculate the period of rotation,T that the electron will aquire when moving in the magnetic field.
C) calculate radius R of the circular path transverse by moving electron.
D) what is the magnitude of the magnetic force felt by the particle as it moves in the magnetic field?
E) using second picture. Describe the motion of a second electron that approaches the magnetic field with a velosity show in picture 2. Use diagram and few words to describe the motion and how it differs from that of the first electron
Kindly do all parts. Will upvote ?
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