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Section 5.1Systems of Linear Equations in
Two Variables
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Systems of Linear Equations and Their Solutions
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Two linear equations are called a system of linear equations. A solution to a system of linear equations in two variables is an ordered pair that satisfies both equations in the system.
The solution of a system of linear equations can sometimes be found by graphing both of the equations in the same rectangular coordinate system. For a system with one solution, the coordinates of the point of intersection give the system’s solution.
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Example
Determine if the ordered pair (-1, 3) is a solution to the system:
2x-y=-5
x+y=2
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Eliminating a Variable Using the Substitution Method
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Example
Solve by the substitution method:
5x+y=9
-x+3y=11
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Example
Solve by the substitution method:
3x-2y=7
x+3y=6
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Eliminating a Variable Using the Addition Method
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Example
Solve by the addition method:
3x-2y=7
x+3y=6
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Example
Solve by the addition method:
8x+3y=13
x+6y=-4
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Linear Systems Having No Solution or Infinitely Many
Solutions
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A linear system that has at least one solution is called a consistent
system. Lines that intersect and lines that coincide both represent
consistent systems. If lines coincide, then the consistent system has
infinitely many solutions, represented by every point on either line.
The equations in a linear system with infinitely many solutions are
called dependent. When you solve by substitution or addition, you
will eliminate both variables. However, a true statement, such as
10=10, will be the result.
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Study Tip
Although the system
3 2
15 5 10
has infinitely many solutions, this does not mean that any ordered
pair of numbers you can form will be a solution. The ordered pair
(x,y) must satisfy one of the sy
y x
x y
stem's equations, y=3-2x or 15x-5y=10,
and there are infinitely many such ordered pairs. Because the graphs
are coinciding lines, the ordered pairs that are solutions of one of the
equations are also solutions of the other equation.
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Example
Solve the system:
3 2 7
6 4 9
x y
x y
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Example
Solve the system:
2 7
6 3 21
x y
x y
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Functions of Business: Break-Even Analysis
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When we graph a Cost equation and a Revenue equation we can see very easily where the Break-even point is. After this point the company will be making a gain and before this point they will be suffering a Loss. The extent of that gain or loss is seen in the graph.
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Example
You decided to start your own company which is going to produce
specialty rugs. The initial cost for setting up the business is $10,000
for the equipment, legal costs, and basic office and advertising needs.
It costs $50 to make each rug and you can sell the rugs for $150.
a. Write the cost function C.
b. Write the revenue function R.
c. Determine the break-even point. What does this mean?
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(a)
(b)
(c)
(d)
Solve by the method of your choice.
6x-y=14
2x+3y=18
( 1,3)
(3,4)
( 2,4)
(3,2)
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(a)
(b)
(c)
(d)
Solve by the method of your choice.
5x+2y=-1
x+3y=5
( 1,2)
(1,2)
( 2,2)
(1, 2)
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(a)
(b)
(c)
(d)
Solve by the method of your choice.
5x+2y=-1
10x+4y=2
( 1,2)
(1, 2)
No solution
Infinitely many solution
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(a)
(b)
(c)
(d)
Let x represent one number and let y represent the other number.
Use the given conditions to write a system of equations and then
find the solution.
Three times the first number when added to the second number
is 22. If the second number is subtracted from the first number
result is 6. Find the numbers.
(2,3)
(2,4)
(7,1)
(5,2)