7.6 CHAPTER 7. DIFFERENTIAL CALCULUS
However, we can use (7.25) to write w in terms of l:w = 160 m− 2l (7.26)Substitute (7.26) into (7.24) to get:A = (160 m− 2l)l = 160 m− 2l^2 (7.27)Step 2 : Differentiate
Since we are interestedin maximising the area,we differentiate (7.27) toget:A�(l) = 160 m− 4lStep 3 : Find the stationary point
To find the stationary point, we set A�(l) = 0 and solve for the valueof l that
maximises the area.A�(l) = 160 m− 4l
0 = 160 m− 4l
∴ 4 l = 160 m
l =160 m
4
l = 40 mSubstitute into (7.26) tosolve for the width.w = 160 m− 2l
= 160 m− 2(40 m)
= 160 m− 80 m
= 80 mStep 4 : Write the final answer
A width of 80 m and a length of 40 m will yield the maximalarea fenced off.Exercise 7 - 5
- The sum of two positive numbers is 20. One of the numbers is multiplied by the square of the
other. Find the numbersthat make this product amaximum. - A wooden block is made as shown in the diagram. The ends are right-angled triangles having
sides 3 x, 4 x and 5 x. The length of the blockis y. The total surface area of the block is 3 600 cm^2.