• Best of luck to the class of 2024 for their HSC exams. You got this!
    Let us know your thoughts on the HSC exams here
  • YOU can help the next generation of students in the community!
    Share your trial papers and notes on our Notes & Resources page
MedVision ad

Quadratic Maximisation Questions Help (1 Viewer)

202025

New Member
Joined
May 12, 2018
Messages
5
Gender
Male
HSC
2020
Need help with question 9 and 10 please. Really struggling to get these questions right. Answers are attached below.

9. A piece of wire 6 metres long is cut into two parts. One part is used to form a square and the other part is used to form a rectangle whose length is three times its breadth. Find the lengths of the two parts if the sum of the two areas is a maximum.

10. A large open area is to have a section surrounded by a rectangular fence. This rectangle is then divided into six smaller rectangles, using one dividing fence parallel to its length and two fences parallel to its width. If the total length of fencing available is 1200 m, find the maximum possible area.
 

Attachments

Last edited:

DynamicMath

New Member
Joined
Mar 9, 2019
Messages
8
Gender
Female
HSC
N/A
Question 9:

You need to convert the word problem into a number problem.

Let the two pieces be x and y.

First we know that the string is 6m long therefore
X+Y=6
So Y=6-X …Equation 1

X is shaped into a square so each side is X/4 long and the area of the square is (X/4)^2

Y is shaped into a rectangle with one side b and the other side 3b.
Y is the perimeter so
Y=b+b+3b+3b=8b
So b=y/8
The area of the rectangle is b*3b=3b^2
So in terms of Y the area is 3*(y/8)^2
And substituting in from Equation 1 the area of the rectangle becomes 3*((6-X)/8)^2

We now have the two areas in terms of X

A= (X/4)^2 +3*((6-X)/8)^2
=(x^2)/16 + (3/64)(36-12X+x^2)

The sum of the two areas now has to be maximised.

A maximum occurs when
dA/dX = 0
=2X/16 + (3/64)(0-12+x^2)
=X/8 +6X/64 -36/64

(8X+6X)/64 =36/64
14X=36
X=36/14 =2 4/7

Y=6-X = 3 3/7
 

DynamicMath

New Member
Joined
Mar 9, 2019
Messages
8
Gender
Female
HSC
N/A
Question 10:

Let the length be L and the width be W.
The fence goes around the outside, and there is one additional fence parallel with the length and 2 additional fences parallel with the width, and the total fence length is 1200m.

Therefore
1200=2L+L+2W+2W

Rearranging:
L=(1200-4W)/3

The area of the rectangle
A=LW
=(1200-4W)/3 * W
=400W – (4/3)W^2

A maximum occurs when
dA/dW = 0
= 400 – 8W/3

8W/3 = 400
W=150

Substituting:
L=(1200-4*150)/3
=200

Area A=LW
=150*200
=30,000 m^2
 

Users Who Are Viewing This Thread (Users: 0, Guests: 1)

Top