(Figure 1)A slab of insulating material of uniform thickness d, lying between -d/2 to +d/2 along the x axis, extends infinitely in the y and z directions, as shown in the figure. The slab has a uniform charge density p. The electric field is zero in the middle of the slab, atz=0. Figure x=+d/2 x=0 x=-d/2 <1 of 2 > ▾ ▼ 8 -1.57 rad Submit ✓ Correct Part C What is Eout the magnitude of the electric field outside the slab? As implied by the fact that Eout is not given as a function of z, this magnitude is constant everywhere outside the slab, not just at the surface. Express your answer in terms of d, p, and co. ▸ View Available Hint(s) Eut Submit Previous Answers Part D Correct Ein (2)= Previous Answers What is Ein (2), the magnitude of the electric field inside the slab as a function of z? ▸ View Available Hint(s) {ΠΙΑΣΦΑ 1 Submit C ?

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(Figure 1)A slab of insulating material of uniform thickness d, lying between -d/2 to +d/2 along the x axis, extends infinitely in the y and z directions, as shown in the figure. The slab has a uniform charge density p. The electric field is zero in the middle of the slab, at z = 0. Figure x=+d/2 x=0 x= -d/2 1 of 2 0 -1.57 rad Submit ✓ Correct Part C What is Eout, the magnitude of the electric field outside the slab? As implied by the fact that Eout is not given as a function of, this magnitude is constant everywhere outside the slab, not just at the surface. Express your answer in terms of d, p, and . ► View Available Hint(s) pd Eout = 2€0 Previous Answers Submit Previous Answers ✓ Correct Part D What is Ein (2), the magnitude of the electric field inside the slab as a function of z? ▸ View Available Hint(s) Ein (2) = Submit |VL]ΑΣΦ ?