Two nonconducting spherical shells with uniform surface charge densities have their centers at a distance of d = 115 cm apart. The smaller shell with radius 15.0 cm has a surface chargedensity of +2.3 μC/m², while the larger shell with radius 32.0 cm has a surface charge density of +13.0 μC/m². Determine the net electric field vector at y₁ = -95.0 cm. Note that thediagram is not to scale. Express your answer in vector form.E = -(6.16e +03)ĴConsider a Gaussian surface of radius y₁ centered about the origin and apply Gauss's law to this surface. What is the charge enclosed inside this surface? N/Cdy₁PX

We know that for a non conducting spherical shell of radius R, magnitude of electric field isE= 0,…

Two nonconducting spherical shells with uniform surface charge densities have their centers at a distance of d = 115 cm apart. The smaller shell with radius 15.0 cm has a surface charge density of +2.3 μC/m², while the larger shell with radius 32.0 cm has a surface charge density of +13.0 µC/m². Determine the net electric field vector at y₁ = -95.0 cm. Note that the diagram is not to scale. Express your answer in vector form. E = -(6.16e+03) X Consider a Gaussian surface of radius y₁ centered about the origin and apply Gauss's law to this surface. What is the charge enclosed inside this surface? N/C

Two nonconducting spherical shells with uniform surface charge densities have their centers at a distance of d = 115 cm apart. The smaller shell with radius 15.0 cm has a surface charge density of +2.3 μC/m², while the larger shell with radius 32.0 cm has a surface charge density of +13.0 µC/m². Determine the net electric field vector at y₁ = -95.0 cm. Note that the diagram is not to scale. Express your answer in vector form. E = -(6.16e+03) X Consider a Gaussian surface of radius y₁ centered about the origin and apply Gauss's law to this surface. What is the charge enclosed inside this surface? N/C

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Question

Two nonconducting spherical shells with uniform surface charge densities have their centers at a distance of d = 115 cm apart. The smaller shell with radius 15.0 cm has a surface charge
density of +2.3 μC/m², while the larger shell with radius 32.0 cm has a surface charge density of +13.0 μC/m². Determine the net electric field vector at y₁ = -95.0 cm. Note that the
diagram is not to scale. Express your answer in vector form.
E = -(6.16e +03)Ĵ
Consider a Gaussian surface of radius y₁ centered about the origin and apply Gauss's law to this surface. What is the charge enclosed inside this surface? N/C
d
y₁
P
X

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