Without using the formula (Gauss), calculate _E∫∇.F(x)dx where  F(x) = x₃²k, E :x₁²+x₂²≤ x³, 0≤x₃≤1 (that is, E is the solid bounded by the surfaces x₁² + x₂²=x₃ e x₃ = 1)

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Given:

In the formulas below E, S and l always denote a solid, a surface, and a line, respectively. While n(x) denotes the normal unitary exterior of S in x, and T(x) denotes the unitary tangent of l in x. (given image with formulas)

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1. S: g(x) = 0, n(x) = ±T E, l: y(t), t e [a, b], T(x) =FOT Vg(z) = 7(t). %3! 2. |n(x).k|ds = dr,dr2, |n(x).j|ds = dxıdr3, |n(x).i|ds = drzdr3, i = (1,0,0), j = (0, 1, 0), k = (0,0, 1), . 3. T(x).idl = dx1, T(x).jdl = dx2, T(x).kdl = dr3, donde dl = ||r'(t)||dt, . 4. (Gauss)ſ V.F(x)dx = S F(x).n(x)ds, onde dr = dx,dx,dr3, V = i+ +k E S=DE 5. (Stokes) (V x F(x)).n(x)ds = S F(x).T(x)dl, F(x) = F;(x)i+ F2(x)j + F3(x)k.