3.1 Determine whether the charge of the particles is positive or negative 3.2 Find an expression for the radius of curvature of particle 1 in terms of the magnetic field, charge, mass and velocity of the particle. 3.3 Find the ratio m2/m1. 3.4 Suppose that particle 1 is a proton which is accelerated by a potential difference of 150 V. to reach the final velocity . The proton entering the region containing the magnetic field of 0.150 T. Find the radius of the trajectory followed by this particle. 3.5 How long it takes the proton to turn around.

Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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3.1 Determine whether the charge of the particles is positive or negative
3.2 Find an expression for the radius of curvature of particle 1 in terms of the magnetic field, charge,
mass and velocity of the particle.
3.3 Find the ratio m2/m1.
3.4 Suppose that particle 1 is a proton which is accelerated by a potential difference of 150 V.
to reach the final velocity . The proton entering the region containing the magnetic field of
0.150 T. Find the radius of the trajectory followed by this particle.
3.5 How long it takes the proton to turn around.
Transcribed Image Text:3.1 Determine whether the charge of the particles is positive or negative 3.2 Find an expression for the radius of curvature of particle 1 in terms of the magnetic field, charge, mass and velocity of the particle. 3.3 Find the ratio m2/m1. 3.4 Suppose that particle 1 is a proton which is accelerated by a potential difference of 150 V. to reach the final velocity . The proton entering the region containing the magnetic field of 0.150 T. Find the radius of the trajectory followed by this particle. 3.5 How long it takes the proton to turn around.
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