I Scientists in a laboratory onboard a zero-gravity spaceship setup and measure electric and magnetic fields in an experiment chamber. The scientists measure the magnetic field to point in the positive x-direction given by B = B,i. The scientists then measure the net force acting on a charged particle q moving through this chamber. The net force is measured to be F = -F,î + Faj. The particle is moving along the positive z-axis with a velocity given by i = v,k. What are the x and y components of the electric field as measured by the scientists? Express your answers in terms of q, vo, Bo, Fi, and F2, as needed.

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| Scientists in a laboratory onboard a zero-gravity spaceship setup and measure
electric and magnetic fields in an experiment chamber. The scientists measure the magnetic
field to point in the positive x-direction given by
B = B,î.
The scientists then measure the net force acting on a charged particle q moving through this
chamber. The net force is measured to be
F = -F,î + F2j.
The particle is moving along the positive z-axis with a velocity given by
i = v,k.
What are the x and y components of the electric field as measured by the
scientists? Express your answers in terms of q, vo, Ba, F1, and F2, as needed.
Transcribed Image Text:| Scientists in a laboratory onboard a zero-gravity spaceship setup and measure electric and magnetic fields in an experiment chamber. The scientists measure the magnetic field to point in the positive x-direction given by B = B,î. The scientists then measure the net force acting on a charged particle q moving through this chamber. The net force is measured to be F = -F,î + F2j. The particle is moving along the positive z-axis with a velocity given by i = v,k. What are the x and y components of the electric field as measured by the scientists? Express your answers in terms of q, vo, Ba, F1, and F2, as needed.
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