3.1 Determine whether the charge of the particles is positive or negative3.2 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 of0.150 T. Find the radius of the trajectory followed by this particle.3.5 How long it takes the proton to turn around.

I will be attaching screenshots of the solutions/formulas I have derived using Mathcad software to…

Answered: 3.1 Determine whether the charge of the…

Introductory Circuit Analysis (13th Edition)

13th Edition

ISBN:9780133923605

Author:Robert L. Boylestad

Publisher:Robert L. Boylestad

Chapter1: Introduction

Section: Chapter Questions

Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...

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QUESTION 1 a) Two conducting plates are separated by three dielectric materials as shown in Figure Q.1(a) The relative permittivity, &, of the materials filled in the two conducting plates are tabulated in Table Q.1. Find the total capacitance, C of the parallel plates in terms of d₁, d2, A₁, and A₂ by neglecting the fringing effects. The symbols of di, d2, A₁, and A2 are the material thickness and material areas, respectively. A₁ A₂ di d₂ 1 3 2 Figure Q. 1(a) Table Q.1 Material Relative permittivity, &r 1 2.2 2 2.8 3 4.2 Hint: The general capacitance formula of two conducting plates is given as: d where E, A, and d are the permittivity of free space, area of the two conducting plates, and distance between the two conducting plates, respectively. 1

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