college algebra sixth edition james stewart lothar redlin saleem watson
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College Algebra Sixth Edition James Stewart Lothar Redlin Saleem Watson. Equations and Inequalities. 1. The Coordinate Plane. 1.1. Coordinate Plane. The coordinate plane is the link between algebra and geometry. In the coordinate plane, we can draw graphs of algebraic equations. - PowerPoint PPT PresentationTRANSCRIPT
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College AlgebraSixth EditionJames Stewart Lothar Redlin Saleem Watson
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Equations and
Inequalities1
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The Coordinate Plane1.1
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Coordinate Plane
The coordinate plane is the link
between algebra and geometry.
• In the coordinate plane, we can draw graphs of algebraic equations.
• In turn, the graphs allow us to “see” the relationship between the variables in the equation.
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The Coordinate Plane
Points on a line can be identified with real
numbers to form the coordinate line.
Similarly, points in a plane can be identified
with ordered pairs of numbers to form
the coordinate plane or Cartesian plane.
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Axes
To do this, we draw two perpendicular real
lines that intersect at 0 on each line.
Usually,
• One line is horizontal with positive direction to the right and is called the x-axis.
• The other line is vertical with positive direction upward and is called the y-axis.
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Origin & Quadrants
The point of intersection of the x-axis and
the y-axis is the origin O.
The two axes divide
the plane into four
quadrants, labeled
I, II, III, and IV here.
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Origin & Quadrants
The points on the coordinate axes
are not assigned to
any quadrant.
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Ordered Pair
Any point P in the coordinate plane
can be located by a unique ordered pair
of numbers (a, b).
• The first number a is called the x-coordinate of P.
• The second number b is called the y-coordinate of P.
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Coordinates
We can think of the coordinates of P
as its “address.”
• They specify its location in the plane.
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Coordinates
Several points are labeled with their
coordinates in this figure.
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E.g. 1—Graphing Regions in the Coordinate Plane
Describe and sketch the regions given
by each set.
(a) {(x, y) | x ≥ 0}
(b) {(x, y) | y = 1}
(c) {(x, y) | –1 < y < 1}
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E.g. 1—Regions in the Coord. Plane
The points whose x-coordinates are 0 or
positive lie on the y-axis
or to the right of it.
Example (a)
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E.g. 1—Regions in the Coord. Plane
The set of all points with y-coordinate 1
is a horizontal line
one unit above
the x-axis.
Example (b)
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E.g. 1—Regions in the Coord. Plane
• The given region consists of those
points in the plane whose
y-coordinates lie between -1 and 1.
• Thus, the region consists of all points that lie between (but not on) the horizontal lines y = 1 and y = –1.
Example (c)
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E.g. 1—Regions in the Coord. Plane
These lines are shown as broken lines
here to indicate that the points on these
lines do not lie in the set.
Example (c)
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The Distance Formula
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The Distance Formula
We now find a formula for the distance
d(A, B) between two points A(x1, y1)
and B(x2, y2) in the plane.
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The Distance Formula
Recall from Section P.2 that the distance
between points a and b on a number line
is:
d(a, b) = |b – a|
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The Distance Formula
So, from the figure, we see that:
• The distance between the points A(x1, y1) and C(x2, y1) on a horizontal line must be |x2 – x1|.
• The distance between B(x2, y2) and C(x2, y1) on a vertical line must be |y2 – y1|.
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The Distance Formula
Triangle ABC is a right triangle.
So, the Pythagorean Theorem gives:2 2 2 2
2 1 2 1 2 1 2 1( , ) | | | | ( ) ( )d A B x x y y x x y y
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Distance Formula
The distance between the points
A(x1, y1) and B(x2, y2) in the plane
is:
2 22 1 2 1( , ) ( ) ( )d A B x x y y
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E.g. 2—Finding the Distance Between Two Points
Find the distance between the points
A(2, 5) and B(4, –1).
• Using the Distance Formula, we have:
2 2
2 2
( , ) (4 2) ( 1 5)
2 ( 6)
4 36
40 6.32
d A B
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E.g. 2—Finding the Distance Between Two Points
We see that the distance between
points A and B is
approximately 6.32.
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E.g. 3—Applying the Distance Formula
Which of the points P(1, –2) or Q(8, 9)
is closer to the point A(5, 3)?
• By the Distance Formula, we have:
2 2 2 2
2 2 2 2
( , ) (5 1) [3 ( 2)] 4 5 41
( , ) (5 8) [3 9] ( 3) ( 6) 45
d P A
d Q A
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E.g. 3—Applying the Distance Formula
This shows that d(P, A) < d(Q, A)
So, P is closer to A.
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The Midpoint Formula
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The Midpoint Formula
Now, let’s find the coordinates (x, y)
of the midpoint M of the line segment
that joins the point A(x1, y1) to the point
B(x2, y2).
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The Midpoint Formula
In the figure, notice that triangles APM
and MQB are congruent because:
• d(A, M) = d(M, B)
• The corresponding angles are equal.
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The Midpoint Formula
It follows that d(A, P) = d(M, Q).
So,
x – x1 = x2 – x
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The Midpoint Formula
Solving that equation for x, we get:
2x = x1 + x2
So, x = (x1 + x2)/2
• Similarly, y = (y1 + y2)/2
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Midpoint Formula
The midpoint of the line segment from
A(x1, y1) to B(x2, y2) is:
1 2 1 2,2 2
x x y y
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E.g. 4—Finding the Midpoint
The midpoint of the line segment that joins
the points (–2, 1) and (4, 5) is
2 4 1 5, 1, 3
2 2
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E.g. 5—Applying the Midpoint Formula
Show that the quadrilateral with vertices
P(1, 2), Q(4, 4), R(5, 9), and S(2, 7)
is a parallelogram by proving that
its two diagonals bisect each other.
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E.g. 5—Applying the Midpoint Formula
If the two diagonals have the same
midpoint, they must bisect each other.
• The midpoint of the diagonal PR is:
• The midpoint of the diagonal QS is:
1 5 2 9 11, 3,
2 2 2
4 2 4 7 11, 3,
2 2 2
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E.g. 5—Applying the Midpoint Formula
Thus, each diagonal
bisects the other.
• A theorem from elementary geometry states that the quadrilateral is therefore a parallelogram.