# Have difficulties doing this question, can anyone help?:(

• Nov 6th 2012, 11:47 AM
Holden1131
Have difficulties doing this question, can anyone help?:(
4. Page Layout Design

A graphic designer is working to optimize the layout of a multi-page print advertisement. Each rectangular page must contain 100 square inches of print. The margins at the top and bottom of the page are to be 1.5 inches deep and the margins on each side are to be 1 inch wide. The goal is to determine the dimensions of each page so that the minimum amount of paper is used.

a) Sketch a diagram of a page, showing the printed area with relevant dimensions and labeling the width, W, and the length, L.

b) Using the information above, express the length, L, in terms of the width, W.

c) Write a function for the total page area, A(w), in terms of w only. Simplify this function.

d) What is the mathematical domain of this function? Explain this domain in the problem context.

e) What is the practical (appropriate) domain of this function (appropriate to the problem context)?

f) Graph this function by finding the x and y intercepts, vertical asymptote, and a sign chart for the function. The end-behaviour of this function will be unusual – explain why this is the case. Calculate and plot some points in the appropriate domain of this function to refine the accuracy of your graph.

g) From your graph, estimate the value of the page width that results in the minimum page area. Then calculate the corresponding page length.
• Nov 6th 2012, 03:21 PM
Prove It
Re: Have difficulties doing this question, can anyone help?:(
This is quite a big question. What have you tried so far?
• Nov 6th 2012, 08:37 PM
Holden1131
Re: Have difficulties doing this question, can anyone help?:(
Yea but I don't even how to approach it :(
• Nov 7th 2012, 12:50 AM
cac2008
Re: Have difficulties doing this question, can anyone help?:(
Try drawing the picture of the rectangular page with the margins included. If W and L are the width and length of the entire page, and the "print area" is the page less the margins such that the area = 100 sq.in. then you can express W and L in one product equation.