QUESTION 3 W- (p+ A parallel plate setup is such that the electric field is 1.95x10^5 N/C[S]. A proton travels 9.13x10^4 m/s[E], perpendicular to the electric field. The proton feels an electric force from the electric field. A magnetic field can be added to the system such that the sum of the electric and magnetic forces on the proton is zero, which allows the proton to travel forward at constant velocity. Calculate the strength and direction of such a magnetic field. Proton: mas 67x100-27kg charge +1 60x10^-190

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QUESTION 3
W-
-E
p+
A parallel plate setup is such that the electric field is 1.95x10^5 N/C[S].
A proton travels 9.13x10^4 m/s[E], perpendicular to the electric field.
The proton feels an electric force from the electric field.
A magnetic field can be added to the system such that the sum of the
electric and magnetic forces on the proton is zero,
which allows the proton to travel forward at constant velocity.
Calculate the strength and direction of such a magnetic field.
Proton: mass = 1.67x10^-27kg, charge = +1.60x10^-19C.
Transcribed Image Text:QUESTION 3 W- -E p+ A parallel plate setup is such that the electric field is 1.95x10^5 N/C[S]. A proton travels 9.13x10^4 m/s[E], perpendicular to the electric field. The proton feels an electric force from the electric field. A magnetic field can be added to the system such that the sum of the electric and magnetic forces on the proton is zero, which allows the proton to travel forward at constant velocity. Calculate the strength and direction of such a magnetic field. Proton: mass = 1.67x10^-27kg, charge = +1.60x10^-19C.
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