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16 August, 09:47

Without calculation, decide if each of the integrals below are positive, negative, or zero. Let W be the solid bounded by z=sqrt (x2+y2) and z=2.1. ∭ (z-2) dV2. ∭e-xyzdV3. ∭ (z-sqrt (x2+y2)) dV

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  1. 16 August, 11:22
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    1) ∭ (z-2) dV negative.

    2) ∭e^{-xyz} dV positive.

    3) ∭ (z-/sqrt{x²+y²}) positive.

    Step-by-step explanation:

    From Exercise we have:

    z=/sqrt{x²+y²}

    z=2

    ⇒2=/sqrt{x²+y²}

    4=x²+y²

    Therefore, we get that the solid bounded by:

    /sqrt{x²+y²}≤z≤2

    4=x²+y²

    1) From initial condition we have that

    /sqrt{x²+y²}≤z≤2

    ⇒ 2-z≤0

    Therefore, we get that the triple integral is

    ∭ (z-2) dV negative.

    2) We know that e^{-xyz} is always positive number.

    Therefore, we get that the triple integral is

    ∭e^{-xyz} dV positive.

    3) From initial condition we have that

    /sqrt{x²+y²}≤z≤2

    ⇒ z-/sqrt{x²+y²}>0

    Therefore, we get that the triple integral is

    ∭ (z-/sqrt{x²+y²}) positive.
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