A stationary particle of charge q = 2.1 x 108 C is placed in a laser beam (an electromagnetic wave) whose intensity is 2.9 x 103 W/m². Determine the maximum magnitude of the (a) electric and (b) magnetic forces exerted on the charge. If the charge is moving at a speed of 3.7 x 104 m/s perpendicular to the magnetic field of the electromagnetic wave, find the maximum magnitudes of the (c) electric and (d) magnetic forces exerted on the particle. (a) F= (b) Fi (c) F= (d) F=

Part D please

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11:27 ◄ Search Step2 b) Given q = 2.1 x 10-8 C₁ I = 2.9x10³₁ v = 3.7x10 m/s Solution: (a) Step3 c) Intensity (I) = E² % € = 21μ₂ c Electric force (F₂) = q E 240c 9:08 No W/m² F₂ = 2√√√√21μ₂² (From ) F₂= 2.1x1082 (209X16³) (45X107)(3x108) 3.11 X 10 N (6) As charge is stationary is magnetic force FB = ON is ! (c) Electric force does not depends upon velocity !! it remains same. That is Ans Fe = 3·11 X10-5 N Was this solution helpful? J Yes √x 8

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(b) F= A stationary particle of charge q = 2.1 x 108 C is placed in a laser beam (an electromagnetic wave) whose intensity is 2.9 x 10³ W/m². Determine the maximum magnitude of the (a) electric and (b) magnetic forces exerted on the charge. If the charge is moving at a speed of 3.7 x 104 m/s perpendicular to the magnetic field of the electromagnetic wave, find the maximum magnitudes of the (c) electric and (d) magnetic forces exerted on the particle. (a) Fi (c) F= 9:05 (d) F= ×