Two non-conducting spheres of radii R₁ = 15 mm and R₂ = 6.5 mm are niformly charged with charge densities Q1 = 3.2 μC/m³ and Q2 = 0.7501, respectively. They are eparated by a center-to-center distance a = 5R₁ (see drawing). 0 a R₂ Part (a) Find the magnitude of the electric field, in newtons per coulomb, due to sphere I only, at point P which is located a distance r = 3R₁ from the enter of sphere 1 and in the direction = 32° from the line joining the two spheres. Assume that the center of sphere 1 is located at the origin and that the individua harge densities are not affected by the presence of the other sphere. E₁ = 1 N/C

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Two non-conducting spheres of radii R₁ = 15 mm and R₂ = 6.5 mm are uniformly charged with charge densities Q₁ = 3.2 µC/m³ and Q2 = 0.7501, respectively. They are separated by a center-to-center distance a = 5R₁ (see drawing). E₁ 0 = a- Part (a) Find the magnitude of the electric field, in newtons per coulomb, due to sphere 1 only, at point P which is located a distance r = 3R₁ from the center of sphere 1 and in the direction = 32° from the line joining the two spheres. Assume that the center of sphere 1 is located at the origin and that the individual charge densities are not affected by the presence of the other sphere. N/C XR₂ Part (b) Find the magnitude of the electric field, in newtons per coulomb, due to sphere 2 only, at point P. Assume that the center of sphere 1 is located at the origin and that the individual charge densities are not affected by the presence of the other sphere.