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 Practice Problems For Exam III

These problems should be looked at in advance at home.  Some of them (the same or very similar) will be on Exam III.
1.  For the data points (1,1), (2,3), (3,6), (4,7), and (5,9) find the best fit linear function (y = ax + b) based on a least squares criteria.  Show the system of equations to be solved in finding a and b by setting Sa and Sb each equal to zero.  S(a,b) is the function giving the sum of the squares of the errors.  Make sure you follow the instructions for this problem given in class.

 

 
2.  Find the box of largest volume that can be inscribed in the ellipsoid whose equation is:

           

       click here to see a larger picture

       State both the dimensions and volume of your "largest" box.  You may not use the method of

       Lagrange Multipliers.

 

 
3.  In the problem pictured below, determine the values for x and y that will minimize total construction costs.  The idea is to lay pipe from point P to Point Q.  It costs 3 million dollars per mile to lay the pipe through the blue area, 2 million dollars per mile to lay the pipe through the green area, and 1 million dollars per mile to lay the pipe along the boundary between the green area and the brown area.  Consider the colored regions to be rectangles, x to represent the horizontal distance for the pipe in the blue region and y to be the horizontal distance for the pipe in the green region.  The blue region and the green region are each 1 mile wide and the horizontal distance from P to Q is 5 miles.  You must thoroughly investigate the costs on the boundary of the region over which you would be applying the cost function.  You may assume you would not minimize total cost by laying pipe in the negative x direction, negative y direction, or by laying pipe past point Q and then coming back.  Thus this region (see the bottom picture on the right) would be described by 

Click on the top picture at the right to see an animation of some of the possible paths.

 

4.  (From your homework, Section 13.9:  9)  The sum of the length and girth (perimeter of a cross section) of packages carried by parcel post cannot exceed 108 inches.  Find the dimensions of the rectangular package of largest volume that may be sent by parcel post.

 

5.  Find the absolute maximum and absolute minimum values of the given function over the region R and identify the corresponding points on the surface.  Demonstrate your evaluation along each boundary.

 

 

 

 

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        Lane Vosbury, Mathematics, Seminole State College   email:  vosburyl@seminolestate.edu

        This page was last updated on 08/21/14          Copyright 2002          webstats