Elementary Linear Algebra
8th Edition
ISBN: 9780357156100
Author: Ron Larson
Publisher: Cengage Limited
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Chapter 1.CR, Problem 69CR
To determine
a)
To solve:
The system that fits the data.
To determine
b)
To solve:
The system.
To determine
c)
To fit:
The data into a quadratic model.
To determine
d)
To compare:
The quadratic function in part (b) with the model in (c).
To determine
e)
To fit:
The statement from the book that verifies the obtained result.
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The table gives methane gas emissions in
millions of metric tons. The quadratic model
y = 0.0429x² - 9.73x + 703 approximates the
emissions for these years. In the model, x
represents the number of years since 2008, so
x = 0 represents 2008, x = 1 represents 2009,
and so on. Complete parts a and b.
Year
2008
2009
2010
2011
2012
Millions of Metric
Tons of Methane
703.0
693.3
683.7
674.2
664.8
a. According to the model, what would emissions be in 2016?
According to the model, in 2016 the emissions would be 627.90 million metric tons.
(Round to the nearest tenth as needed.)
b. Find the nearest year beyond 2008 for which this model predicts that emissions will reach 500 million metric tons.
The nearest year beyond 2008 for which the model predicts that the emissions will reach 500 million metric tons is
(Round down to the nearest year.)
Sales of SUVS (sport utility vehicles) in the United States (in millions) for the years 1990-1999 can be modeled by the quadratic equation shown below.
y=0.016x² +0.124x+0.787
Here x = 0 represents 1990, x= 1 represents 1991, and so on. Use the model to approximate sales in 1998.
Sales in 1998 were approximately million SUVs.
(Round to the nearest tenth as needed.)
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Sales of SUVs (sport utility vehicles) in the United States (in millions) for the years 1990-1999 can be modeled by the quadratic equation shown below.
y=0.016x2+0.124x+0.787
Here
x=0
represents 1990,
x=1
represents 1991, and so on. Use the model to approximate sales in
1995.
Chapter 1 Solutions
Elementary Linear Algebra
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