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Directional derivatives and the gradient vector

  1. Oct 13, 2009 #1
    1. The problem statement, all variables and given/known data
    show that the pyramids cut off from the first octant by any tangent planes to the surface xyz=1 at points in the first octant must all have the same volume


    2. Relevant equations



    3. The attempt at a solution

    i dont know how to start this problem. any hints?
     
  2. jcsd
  3. Oct 13, 2009 #2

    LCKurtz

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    Start by writing the equation of the tangent plane at a point (a,b,c) on the surface in the first octant. Then finish by calculating the mentioned volume.
     
  4. Oct 13, 2009 #3
    i don't know what it means by "the surface in the first octant", what should the general equation look like? thank you
     
  5. Oct 13, 2009 #4

    LCKurtz

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    xyz = 1 is the equation of a surface. If (a, b, c) is a point on the surface in the first octant, you can calculate the equation of the tangent plane to the surface at that point. That tangent plane and the three coordinate planes make the sides of a pyramid (tetrahedron). Calculate its volume. The problem is to show that the answer you get doesn't is the same for any (a,b,c) on the surface in the first octant.
     
  6. Oct 15, 2009 #5
    i am sorry, but what do you mean by " three coordinate planes". and can you explain a little bit more about how to find sides of the pyramid
     
  7. Oct 15, 2009 #6

    LCKurtz

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    Here's a picture showing just one example of a plane tangent to your surface. The coordinate planes outlined in red give the other faces.

    pyramid.jpg
     
  8. Oct 15, 2009 #7
    i get it now, thank you so much
     
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