lesson1 consistent or inconsistent system. when the graph of two linear equations are drawn in the...
TRANSCRIPT
![Page 1: LESSON1 CONSISTENT OR INCONSISTENT SYSTEM. When the graph of two linear equations are drawn in the coordinate plane they may be related to each other](https://reader035.vdocument.in/reader035/viewer/2022062618/551440ce5503466d1a8b57b4/html5/thumbnails/1.jpg)
LESSON1
CONSISTENT OR INCONSISTENT SYSTEM
![Page 2: LESSON1 CONSISTENT OR INCONSISTENT SYSTEM. When the graph of two linear equations are drawn in the coordinate plane they may be related to each other](https://reader035.vdocument.in/reader035/viewer/2022062618/551440ce5503466d1a8b57b4/html5/thumbnails/2.jpg)
When the graph of two linear equations are drawn in the coordinate plane they may be related to each other as shown
below.
• FIGURE 1.• x + y = -2• x -2y = 7• The graphs
intersect in exactly one point.
• FIGURE 2.• y= 2x + 3• 2y = 4x + 6
• The graphs coincide; that is, they have an infinite number of points in common.
• FIGURE 3.• 3x + y = 2• 3x + y = 7• The graphs are parallel;
that is, they have no points in common.
![Page 3: LESSON1 CONSISTENT OR INCONSISTENT SYSTEM. When the graph of two linear equations are drawn in the coordinate plane they may be related to each other](https://reader035.vdocument.in/reader035/viewer/2022062618/551440ce5503466d1a8b57b4/html5/thumbnails/3.jpg)
The graphs in figures 1 and 2 have at least one point in common. The system are said to be CONSISTENT.
• FIGURE 1.• x + y = -2• x -2y = 7• The graphs
intersect in exactly one point.
• FIGURE 2.• y= 2x + 3• 2y = 4x + 6
• The graphs coincide; that is, they have an infinite number of points in common.
• FIGURE 3.• 3x + y = 2• 3x + y = 7• The graphs are parallel;
that is, they have no points in common.
![Page 4: LESSON1 CONSISTENT OR INCONSISTENT SYSTEM. When the graph of two linear equations are drawn in the coordinate plane they may be related to each other](https://reader035.vdocument.in/reader035/viewer/2022062618/551440ce5503466d1a8b57b4/html5/thumbnails/4.jpg)
The graphs in figures 3 have NO point in common. This system is said to be INCONSISTENT.
• FIGURE 1.• x + y = -2• x -2y = 7• The graphs
intersect in exactly one point.
• FIGURE 2.• y= 2x + 3• 2y = 4x + 6
• The graphs coincide; that is, they have an infinite number of points in common.
• FIGURE 3.• 3x + y = 2• 3x + y = 7• The graphs are parallel;
that is, they have no points in common.
CONSISTENT CONSISTENT INCONSISTENT
![Page 5: LESSON1 CONSISTENT OR INCONSISTENT SYSTEM. When the graph of two linear equations are drawn in the coordinate plane they may be related to each other](https://reader035.vdocument.in/reader035/viewer/2022062618/551440ce5503466d1a8b57b4/html5/thumbnails/5.jpg)
DEFINITIONS• A CONSISTENT SYSTEM of equations
or inequalities is one whose solution set contains at least one ordered pair.• An INCONSISTENT SYSTEM of
equations or inequalities is one whose solution set is the empty set.
![Page 6: LESSON1 CONSISTENT OR INCONSISTENT SYSTEM. When the graph of two linear equations are drawn in the coordinate plane they may be related to each other](https://reader035.vdocument.in/reader035/viewer/2022062618/551440ce5503466d1a8b57b4/html5/thumbnails/6.jpg)
Write the equations of the system below in slope-intercept form.
• FIGURE 1.• x + y = -2• x -2y = 7• The graphs
intersect in exactly one point.
• FIGURE 2.• y= 2x + 3• 2y = 4x + 6
• The graphs coincide; that is, they have an infinite number of points in common.
• FIGURE 3.• 3x + y = 2• 3x + y = 7• The graphs are parallel;
that is, they have no points in common.
CONSISTENT CONSISTENT INCONSISTENT
![Page 7: LESSON1 CONSISTENT OR INCONSISTENT SYSTEM. When the graph of two linear equations are drawn in the coordinate plane they may be related to each other](https://reader035.vdocument.in/reader035/viewer/2022062618/551440ce5503466d1a8b57b4/html5/thumbnails/7.jpg)
• System 1• x + y = -2 (1)• x -2y = 7 (2)• Slope-intercept form
• y = -x -2 (1)• y = ½ x - (2)2
7
• System 2• y= 2x + 3 (1)• 2y = 4x + 6 (2)• Slope-intercept form
• y = 2x + 3 (1)• y = x - (2)2
426
• System 3• 3x + y = 2 (1)• 3x + y = 7 (2)• Slope-intercept form
• y = -3x + 2 (1)• y = -3x + 7 (2)
![Page 8: LESSON1 CONSISTENT OR INCONSISTENT SYSTEM. When the graph of two linear equations are drawn in the coordinate plane they may be related to each other](https://reader035.vdocument.in/reader035/viewer/2022062618/551440ce5503466d1a8b57b4/html5/thumbnails/8.jpg)
• System 1• x + y = -2 (1)• x -2y = 7 (2)• Slope-intercept form
• y = -x -2 (1)• y = ½ x - (2)2
7
• System 2• y= 2x + 3 (1)• 2y = 4x + 6 (2)• Slope-intercept form
• y = 2x + 3 (1)• y = x - (2)2
426
• For system 1, exactly one ordered pair satisfies both equations. For this system,
• m₁ = -1 & m₂ = ½• Thus, m₁ ≠ m₂
• For system 2, every ordered pair that satisfies equation 1 also satisfies Equation 2. The system is DEPENDENT. For this system
• m₁ = 2 & m₂ = 2• Also , b₁ = 3 & b₂ = 3
![Page 9: LESSON1 CONSISTENT OR INCONSISTENT SYSTEM. When the graph of two linear equations are drawn in the coordinate plane they may be related to each other](https://reader035.vdocument.in/reader035/viewer/2022062618/551440ce5503466d1a8b57b4/html5/thumbnails/9.jpg)
• System 3• 3x + y = 2 (1)• 3x + y = 7 (2)• Slope-intercept form
• y = -3x + 2 (1)• y = -3x + 7 (2)• For system 3, no ordered pair satisfies both
equations. For this system,• m₁ = -3 & m₂ = -3 Also, b₁ = 2 & b₂ = 7
• Thus, m₁ = m₂ and b₁ ≠ b₂ .
![Page 10: LESSON1 CONSISTENT OR INCONSISTENT SYSTEM. When the graph of two linear equations are drawn in the coordinate plane they may be related to each other](https://reader035.vdocument.in/reader035/viewer/2022062618/551440ce5503466d1a8b57b4/html5/thumbnails/10.jpg)
• FIGURE 1.• x + y = -2• x -2y = 7• The graphs
intersect in exactly one point.
• FIGURE 2.• y= 2x + 3• 2y = 4x + 6
• The graphs coincide; that is, they have an infinite number of points in common.
• FIGURE 3.• 3x + y = 2• 3x + y = 7• The graphs are parallel;
that is, they have no points in common.
CONSISTENT & INDEPENDENT
CONSISTENT & DEPENDENT
INCONSISTENT
![Page 11: LESSON1 CONSISTENT OR INCONSISTENT SYSTEM. When the graph of two linear equations are drawn in the coordinate plane they may be related to each other](https://reader035.vdocument.in/reader035/viewer/2022062618/551440ce5503466d1a8b57b4/html5/thumbnails/11.jpg)
SUMMARY
Properties of a Linear System of Two Equations
y= m₁x +b₁ and y = m₂ + b₂ .
DESCRIPTION
Slopes and y-
interceptsGraphs Solutions
CONSISTENT m₁ ≠ m₂Intersect in one point One
DEPENDENTm₁ = m₂
and b₁ = b₂
Coincide Infinite number
INCONSISTENT m₁ = m₂ and
b₁ ≠ b₂
Parallel None
![Page 12: LESSON1 CONSISTENT OR INCONSISTENT SYSTEM. When the graph of two linear equations are drawn in the coordinate plane they may be related to each other](https://reader035.vdocument.in/reader035/viewer/2022062618/551440ce5503466d1a8b57b4/html5/thumbnails/12.jpg)
Use the graph of each system to classify it as INCONSISTENT, CONSISTENT,
DEPENDENT.
INCONSISTENT
![Page 13: LESSON1 CONSISTENT OR INCONSISTENT SYSTEM. When the graph of two linear equations are drawn in the coordinate plane they may be related to each other](https://reader035.vdocument.in/reader035/viewer/2022062618/551440ce5503466d1a8b57b4/html5/thumbnails/13.jpg)
Use the graph of each system to classify it as INCONSISTENT, CONSISTENT,
DEPENDENT.
CONSISTENTINDEPENDENT
![Page 14: LESSON1 CONSISTENT OR INCONSISTENT SYSTEM. When the graph of two linear equations are drawn in the coordinate plane they may be related to each other](https://reader035.vdocument.in/reader035/viewer/2022062618/551440ce5503466d1a8b57b4/html5/thumbnails/14.jpg)
Use the graph of each system to classify it as INCONSISTENT, CONSISTENT,
DEPENDENT.
CONSISTENTDEPENDENT
![Page 15: LESSON1 CONSISTENT OR INCONSISTENT SYSTEM. When the graph of two linear equations are drawn in the coordinate plane they may be related to each other](https://reader035.vdocument.in/reader035/viewer/2022062618/551440ce5503466d1a8b57b4/html5/thumbnails/15.jpg)
Use the graph of each system to classify it as INCONSISTENT, CONSISTENT,
DEPENDENT.
CONSISTENTINDEPENDENT
![Page 16: LESSON1 CONSISTENT OR INCONSISTENT SYSTEM. When the graph of two linear equations are drawn in the coordinate plane they may be related to each other](https://reader035.vdocument.in/reader035/viewer/2022062618/551440ce5503466d1a8b57b4/html5/thumbnails/16.jpg)
OTHER WAY OF DETERMINING WHETHER THE SYSTEMS ARE
CONSISTENT,INCONSSITENT, or DEPENDENT.
Given a₁ x + b₁y = c₁ and a₂ x + b₂y = c₂.The system is DEPENDENT ifa₁ : a₂ = b₁ : b₂ = c₁ : c₂One equation is a multiple to
the other.Graphically, the lines coincide.
![Page 17: LESSON1 CONSISTENT OR INCONSISTENT SYSTEM. When the graph of two linear equations are drawn in the coordinate plane they may be related to each other](https://reader035.vdocument.in/reader035/viewer/2022062618/551440ce5503466d1a8b57b4/html5/thumbnails/17.jpg)
• FIGURE 1.• x + y = -2• x -2y = 7• The graphs
intersect in exactly one point.
• FIGURE 2.• y= 2x + 3• 2y = 4x + 6
• The graphs coincide; that is, they have an infinite number of points in common.
• FIGURE 3.• 3x + y = 2• 3x + y = 7• The graphs are
parallel; that is, they have no points in common.
CONSISTENT & INDEPENDENT
CONSISTENT & DEPENDENT
INCONSISTENT
![Page 18: LESSON1 CONSISTENT OR INCONSISTENT SYSTEM. When the graph of two linear equations are drawn in the coordinate plane they may be related to each other](https://reader035.vdocument.in/reader035/viewer/2022062618/551440ce5503466d1a8b57b4/html5/thumbnails/18.jpg)
OTHER WAY OF DETERMINING WHETHER THE SYSTEMS ARE
CONSISTENT,INCONSSITENT, or DEPENDENT.
Given a₁ x + b₁y = c₁ and a₂ x + b₂y = c₂.
The system is INCONSISTENT ifa₁ : a₂ = b₁ : b₂ ≠ c₁ : c₂Graphically, the lines are
parallel.
![Page 19: LESSON1 CONSISTENT OR INCONSISTENT SYSTEM. When the graph of two linear equations are drawn in the coordinate plane they may be related to each other](https://reader035.vdocument.in/reader035/viewer/2022062618/551440ce5503466d1a8b57b4/html5/thumbnails/19.jpg)
• FIGURE 1.• x + y = -2• x -2y = 7• The graphs
intersect in exactly one point.
• FIGURE 2.• y= 2x + 3• 2y = 4x + 6
• The graphs coincide; that is, they have an infinite number of points in common.
• FIGURE 3.• 3x + y = 2• 3x + y = 7• The graphs are
parallel; that is, they have no points in common.
CONSISTENT & INDEPENDENT
CONSISTENT & DEPENDENT
INCONSISTENT
![Page 20: LESSON1 CONSISTENT OR INCONSISTENT SYSTEM. When the graph of two linear equations are drawn in the coordinate plane they may be related to each other](https://reader035.vdocument.in/reader035/viewer/2022062618/551440ce5503466d1a8b57b4/html5/thumbnails/20.jpg)
OTHER WAY OF DETERMINING WHETHER THE SYSTEMS ARE
CONSISTENT,INCONSSITENT, or DEPENDENT.
Given a₁ x + b₁y = c₁ and a₂ x + b₂y = c₂.The system is CONSISTENT if neither
holds.a₁ : a₂ = b₁ : b₂ = c₁ : c₂a₁ : a₂ ≠ b₁ : b₂Graphically, the lines are intersect.
![Page 21: LESSON1 CONSISTENT OR INCONSISTENT SYSTEM. When the graph of two linear equations are drawn in the coordinate plane they may be related to each other](https://reader035.vdocument.in/reader035/viewer/2022062618/551440ce5503466d1a8b57b4/html5/thumbnails/21.jpg)
• FIGURE 1.• x + y = -2• x -2y = 7• The graphs
intersect in exactly one point.
• FIGURE 2.• y= 2x + 3• 2y = 4x + 6
• The graphs coincide; that is, they have an infinite number of points in common.
• FIGURE 3.• 3x + y = 2• 3x + y = 7• The graphs are
parallel; that is, they have no points in common.
CONSISTENT & INDEPENDENT
CONSISTENT & DEPENDENT
INCONSISTENT