(edited 5/31/2017)
Some Algebra Word Problems – Part II
Some Algebra Word Problems – Part II
Source: Blitzer, Robert Introductory
& Intermediate Algebra for College Students 3rd Edition
Pearson, Prentice Hall: Upper Saddle
River, New Jersey 2009 ISBN-13:
978-0-13-602895-6
Problems and
diagrams are rewritten. No claims of
profit are made.
Here are five
more problems. For the previous
installment, click this link: http://edspi31415.blogspot.com/2017/05/some-algebra-word-problems.html
What size is the Garden?
Problem:
The
length of a rectangular garden is 5 feet greater than its width. The garden’s area is 300 square feet. Find the dimensions of the garden. [pg. 452, number 82 – Blitzer]
Discussion:
The area of a rectangle
is:
Area = Length *
Width
In this case,
Width = x, Length = x + 5, and Area = 300, with width and length in feet, area
in square feet.
Then:
(x + 5) * x =
300
x^2 + 5 * x =
300
What we have is
a quadratic equation. Subtract 300 from
both sides yields
x^2 + 5*x – 300
= 0
We can use the
quadratic equation or try to factor. I’m
going to factor:
(x – 15) * (x +
20) = 0
Which leads to
x = 15 and x = -20. In this case,
negative lengths do not make sense, hence the solution we are looking for x =
15.
To conclude,
the Width is 15 feet, while the Length is 20 feet (15 + 5).
Trees and Triangles
Problem:
A
person who is 5 feet tall is standing 80 feet from a tree. At the time, the tree casts an 86-foot
shadow, while the person casts a 6-foot shadow.
What is the tree’s height? [pg.
527, number 32 – Blitzer]
Discussion:
We are working
with similar triangles. Please see the
diagram. The ratio of height/length is:
x/86 = 5/6
x = 86 * 5/6
x = 71.666666
The height of
the tree is 71.666666 feet.
* I previously had the incorrect answer of 70.83333. I thank Gianfranco Cazzaro for alerting me on my mistake. The answer is now correct. - EWS 5/31/2017
* I previously had the incorrect answer of 70.83333. I thank Gianfranco Cazzaro for alerting me on my mistake. The answer is now correct. - EWS 5/31/2017
From Bangkok to Phnom Penh
Problem:
On
a map, Bangkok are given coordinates (-115, 170) and Phnom Penh has the
coordinates (65, 70). Units are in
miles. How long will it take a plane
flying 400 miles an hour (mph) on a direct flight between Bangkok and Phnom
Penh? Round off the answer to the nearest tenth of an hour. Assume the flight takes place in a straight
line. [pg. 750, number 121 – Blitzer]
Discussion:
We can use the
following two formulas to help us solve the problem:
Distance
between points (x1, y1) and (x2, y2):
Distance = √(
(x1 – x2)^2 + (y1 – y2)^2 )
Relationship
between Distance, Speed, and Time:
Time = Distance
/ Speed
Let Point 1
(x1, y1) represent Bangkok (-115, 170) and Point 2 represents Phnom Penh (65,
70). Hence, Distance =√( (-115 – 65)^2 +
(170 – 70)^2 ) , and Speed = 400.
Then:
Time = √( (-115
– 65)^2 + (170 – 70)^2 ) / 400
Time = √( 180^2
+ 100^2 ) / 400
Time ≈ 0.5
The plane will
take about a half an hour to travel from Bangkok to Phnom Penh.
Making It Rain
Problem:
A
rain gutter (as shown above) is made from aluminum sheet 20 inches wide. Edges that are x inches wide are turned up on
each side to form the gutter. Find x to
allow a cross sectional area of 13 square inches. Round off the answer to the nearest tenth of
an inch. [pg. 764, number 81 – Blitzer]
Discussion:
If you fold the
edges up, you get a rectangle with sides x in. and 20 – 2*x in. We want to find x such that the area is 13
in^2. Then:
x * (20 – 2 *
x) = 13
20 * x – 2 *x^2
= 13
Bringing all
terms to one side:
0 = 2*x^2 – 20
*x + 13
We have a
quadratic equation. This time, we’ll use
the quadratic formula:
x = ( 20 ±
√(20^2 – 4 * 2 * 13) ) / (2 * 2)
With a
calculator the results are (results rounded to tenths):
x ≈ 9.3 in and
x ≈ 0.7 in.
There is no
specification which measure is preferable, so both answers are acceptable.
Plot Enclosure
Problem:
You
have 600 feet of fencing to enclose a rectangular plot (see figure). The side facing the river will not be
enclosed. What is the largest area that
can be enclosed? [pg. 782, number 65 –
Blitzer]
The area of the
enclosure is:
A = x * (600 –
2*x)
A = 600 * x – 2
* x^2 (I)
The equation is
in the form of a quadratic equation y = a*x^2 + b*x + c. In general, if a < 0, the quadratic
equation will have a maximum at x = -a / (2*b).
From (I), a =
-2, b = 600, and c = 0. Since a < 0,
we will have a maximum at x = -600 / (2 * -2) = 150.
The sides will
have 150 feet by 300 feet. The maximum
area is 150 ft * 300 ft = 45,000 ft^2.
Eddie
This blog is property of Edward Shore, 2017.
