A negatively charged particle moves in the negative y-direction. The magnetic force on the particle is in the positive z-direction. What can you conclude about the x-component of the magnetic field at the particle's position? Bx = 0 Bx ≤ 0 not enough information given to decide Bx > 0 X
A negatively charged particle moves in the negative y-direction. The magnetic force on the particle is in the positive z-direction. What can you conclude about the x-component of the magnetic field at the particle's position? Bx = 0 Bx ≤ 0 not enough information given to decide Bx > 0 X
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![A negatively charged particle moves in the negative y-direction. The magnetic force on the particle is in the positive z-direction. What can you conclude about the x-component of the magnetic field at the particle’s position?
- \( B_x = 0 \)
- \( B_x < 0 \)
- not enough information given to decide
- \( B_x > 0 \)](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F070e8b65-931e-44e7-bfb4-6d69e5ced655%2Fbee8047b-9ade-4e8e-819f-cd58d151b571%2Fcrau0u_processed.jpeg&w=3840&q=75)
Transcribed Image Text:A negatively charged particle moves in the negative y-direction. The magnetic force on the particle is in the positive z-direction. What can you conclude about the x-component of the magnetic field at the particle’s position?
- \( B_x = 0 \)
- \( B_x < 0 \)
- not enough information given to decide
- \( B_x > 0 \)
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