Question about linear algebra?

3 ANSWERS

1. 
   

   its a vector problem...
   
   u need to convert the equation form into the vector form

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2. 
   

   It all depends on s and t. Are these values given?
   
   9 Places are to be filled up and accomodate 2 unknowns s and t. There must be something more given.

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3. 
   

   First, find an arbitrary point:
   
   -2·x - 3·y + 3·z = -17
   
   Choose z = 1:
   
   -2·x - 3·y + 3·(1) = -17
   
   -2·x - 3·y = -17 - 3
   
   -2·x - 3·y = -20
   
   Choose y = 0:
   
   -2·x - 3·(0) = -20
   
   Solve for x:
   
   -2·x = -20
   
   x = 10
   
   This means that the point ( 10, 0, 1 ) exists on this plane.
   
   That gives you values for the first column of this equation.
   
   ----
   
   Now you want two vectors (for s and t) that are perpendicular to each other but parallel to the plane.
   
   To make this easier, take the fact that a plane equation of the form:
   
   a·x + b·y + c·z = d
   
   Has a normal vector (perpendicular to its surface) of the form:
   
   < a, b, c >
   
   That means that this plane:
   
   -2·x - 3·y + 3·z = -17
   
   Has the normal vector:
   
   < -2, -3, 3 >
   
   ----
   
   Now, find a vector that is parellel to the surface:
   
   -2·x - 3·y + 3·z = -17
   
   Choose x = 4 and z = 0:
   
   -2·(4) - 3·y + 3·(0) = -17
   
   -8 - 3·y = -17
   
   -3·y = -9
   
   y = 3
   
   This gives the point (4, 3, 0) on the plane.
   
   Find a vector from here to the previous point ( 10, 0, 1 ) :
   
   < 10 - 4, 0 - 3, 1 - 0 >
   
   = < 6, -3, 1 >
   
   Take the cross product of this vector with the normal vector to find a vector that is parallel to the surface but perpendicular to the above vector that is also parellel to the surface:
   
   < 6, -3, 1 > × < -2, -3, 3 >
   
   = < -6, -20, -24 >
   
   If you want, you can change the size of this with a scalar multiple:
   
   (½) · < -6, -20, -24 >
   
   = < -3, -10, -12 >
   
   ----
   
   Using these:
   
   P, = ( 10, 0, 1 )
   
   s = < 6, -3, 1 >
   
   t = < -3, -10, -12 >
   
   Your answer becomes:
   
   (periods for spacing only, and the brackets should obviously look like yours)
   
   [ x ] .. [ 10 ] .. [ 6 .] ..... [ -3 ..]
   
   [ y ] = [ 0 ..] + [ -3 ] s + [ -10 ] t
   
   [ z ] .. [ 1 ..] .. [ 1 .] ..... [ -12 ]
   
   Any value you put in for s and t should give you a point that is on the original plane. Plug them in and then add the rows of the matrices together. (You can try putting in random values for s and t and then putting the results into the original equation to see if they equal -17 in order to test it.)

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