Solving Systems of Linear Equations Using Substitution

Systems of Linear Equations II

Example A. At Pizza Grande, one coupon C may be exchanged
for three slices of pizza (P) and five donuts (D).
We have 5 slices of pizzas, 3 donuts and 2 coupons.
What do we have after exchanging the 2 coupons?

The coupon value of C may be recorded as C = 5P + 3D.

5 slices of pizzas, 3 donuts and 2 coupons is 5P + 3D+ 2C.

Exchanging the 2 coupons for pizzas and donuts,
we would have
5P + 3D + 2C

we would have
5P + 3D + 2C
= 5P + 3D + 2(5P + 3D)

we would have
5P + 3D + 2C
= 5P + 3D + 2(5P + 3D)
= 5P + 3D + 10P + 6D

we would have
5P + 3D + 2C
= 5P + 3D + 2(5P + 3D)
= 5P + 3D + 10P + 6D
= 15P + 9D
or 15 slices of pizzas and 9 donuts.

In math, the phrase "substitute (the expression) back into ...“
means to do the exchange, using the given coupon–expression,
in the targeted equations, or expressions mentioned.
we would have
5P + 3D + 2C
= 5P + 3D + 2(5P + 3D)
= 5P + 3D + 10P + 6D
= 15P + 9D
or 15 slices of pizzas and 9 donuts.

There are two other methods to solve system of equations.

Substitution Method

Substitution Method
In substitution method, we solve for one of the variables in
terms of the other, then substitute the result into the other
equation.

2x + y = 7 E1
x + y = 5 E2
Solve
by the substitution method.
Example B. {
Substitution Method
equation.

2x + y = 7 E1
x + y = 5 E2
Solve
From E2, x + y = 5, we get x = 5 – y.
Example B. {
Substitution Method
equation.

2x + y = 7 E1
x + y = 5 E2
Solve
From E2, x + y = 5, we get x = 5 – y.
Example B. {
Substitution Method
equation.
This is the coupon expression
so we may exchange x = 5 – y

2x + y = 7 E1
x + y = 5 E2
Solve
From E2, x + y = 5, we get x = 5 – y.
Then we replace x by (5 – y) in E1 and get
2(5 – y) + y = 7
Example B. {
Substitution Method
equation.

2x + y = 7 E1
x + y = 5 E2
Solve
From E2, x + y = 5, we get x = 5 – y.
2(5 – y) + y = 7
10 – 2y + y = 7
Example B. {
Substitution Method
equation.

2x + y = 7 E1
x + y = 5 E2
Solve
From E2, x + y = 5, we get x = 5 – y.
2(5 – y) + y = 7
10 – 2y + y = 7
10 – y = 7  3 = y
Example B. {
Substitution Method
equation.

2x + y = 7 E1
x + y = 5 E2
Solve
From E2, x + y = 5, we get x = 5 – y.
2(5 – y) + y = 7
10 – 2y + y = 7
10 – y = 7  3 = y
Example B. {
Put 3 = y back to E2 to find x, we get
x + 3 = 5
Substitution Method
equation.

2x + y = 7 E1
x + y = 5 E2
Solve
From E2, x + y = 5, we get x = 5 – y.
2(5 – y) + y = 7
10 – 2y + y = 7
10 – y = 7  3 = y
Example B. {
Put 3 = y back to E2 to find x, we get
x + 3 = 5  x = 2
Therefore the solution is (2, 3)
Substitution Method
equation.

We use the substitution method when it's easy to solve for
one of the variable in terms of the other.

one of the variable in terms of the other. Specifically, it is
easy to solve for a variable when an equation contains an
single x or single y.

2x – y = 7 E1
3x + 2y = 7 E2
Solve
Example C. {

2x – y = 7 E1
3x + 2y = 7 E2
Solve
By inspection, we see that it's easy to solve for the y using E1.
Example C. {

2x – y = 7 E1
3x + 2y = 7 E2
Solve
From E1, 2x – y = 7, we get 2x – 7= y.
Example C. {

2x – y = 7 E1
3x + 2y = 7 E2
Solve
From E1, 2x – y = 7, we get 2x – 7= y. Substitute y by (2x – 7)
in E2 and get
3x + 2(2x – 7) = 7
Example C. {

2x – y = 7 E1
3x + 2y = 7 E2
Solve
in E2 and get
3x + 2(2x – 7) = 7
3x + 4x – 14 = 7
Example C. {

2x – y = 7 E1
3x + 2y = 7 E2
Solve
in E2 and get
3x + 2(2x – 7) = 7
3x + 4x – 14 = 7
7x = 21
x = 3
Example C. {

2x – y = 7 E1
3x + 2y = 7 E2
Solve
in E2 and get
3x + 2(2x – 7) = 7
3x + 4x – 14 = 7
7x = 21
x = 3
Example C. {
To find y, use the substitution equation, set x = 3 in y = 2x – 7

2x – y = 7 E1
3x + 2y = 7 E2
Solve
in E2 and get
3x + 2(2x – 7) = 7
3x + 4x – 14 = 7
7x = 21
x = 3
Example C. {
y = 2(3) – 7
y = -1

2x – y = 7 E1
3x + 2y = 7 E2
Solve
in E2 and get
3x + 2(2x – 7) = 7
3x + 4x – 14 = 7
7x = 21
x = 3
Example C. {
y = 2(3) – 7
y = -1 Hence the solution is (3, -1).

Graphing Method

Graphing Method
Given a system of linear equations the graph of each equation
is a straight line.

Graphing Method
is a straight line. The solution of the system is the intersection
point (x, y) of the these lines.

Graphing Method
point (x, y) of the these lines. Thus we may find the solution by
graphing the lines and locate the point of intersection
graphically.

Graphing Method
graphically. In general, we don't not use the graphing method
because it is not easy to do it accurately.

Graphing Method
2x + y = 7
x + y = 5
Solve graphically.{ E1
E2
Example D.

Graphing Method
2x + y = 7
x + y = 5
E2
Example D.
Use intercept method.

Graphing Method
2x + y = 7
x + y = 5
E2
Example D.
x y
0
0
2x + y = 7

Graphing Method
2x + y = 7
x + y = 5
E2
Example D.
x y
0 7
0
2x + y = 7

Graphing Method
2x + y = 7
x + y = 5
E2
Example D.
x y
0 7
7/2 0
2x + y = 7
E2

Graphing Method
2x + y = 7
x + y = 5
E2
Example D.
x y
0 7
7/2 0
2x + y = 7
E2
(Check another point.)

Graphing Method
2x + y = 7
x + y = 5
E2
Example D.
x y
0 7
7/2 0
2x + y = 7
E1
E2
(0, 7)
(7/2, 0)
E1(Check another point.)

Graphing Method
2x + y = 7
x + y = 5
E2
Example D.
x + y = 5
x y
0 7
7/2 0
2x + y = 7
x y
0
0
(0, 7)
(7/2, 0)

Graphing Method
2x + y = 7
x + y = 5
E2
Example D.
x y
0 7
7/2 0
2x + y = 7 x + y = 5
x y
0 5
5 0
(0, 7)
(7/2, 0)

Graphing Method
2x + y = 7
x + y = 5
E2
Example D.
x y
0 7
7/2 0
2x + y = 7
(0, 7)
(7/2, 0)
(0, 5)
(5, 0)
E2
x + y = 5
x y
0 5
5 0

Graphing Method
2x + y = 7
x + y = 5
E2
Example D.
x y
0 7
7/2 0
2x + y = 7
(0, 7)
(7/2, 0)
(0, 5)
(5, 0)
The intersection
(2, 3) is the solution
E1
E2
x + y = 5
x y
0 5
5 0

Graphing of inconsistent systems are parallel lines which do
not intersect, hence there is no solution.

x + y = 7
x + y = 5
E2
Example E.

x + y = 7
x y
0 7
7 0
x + y = 7
x + y = 5
E2
Example E.

x + y = 7
x y
0 7
7 0
(0, 7)
(7, 0)
x + y = 7
x + y = 5
E2
Example E.

x + y = 7
x y
0 7
7 0
x y
0 5
5 0
(0, 7)
(7, 0)
x + y = 7
x + y = 5
E2
Example E.
x + y = 5

x + y = 7
x y
0 7
7 0
x y
0 5
5 0
(0, 7)
(7, 0)
(0, 5)
(5, 0)
x + y = 7
x + y = 5
E2
Example E.
x + y = 5

x + y = 7
x y
0 7
7 0
x y
0 5
5 0
(0, 7)
(7, 0)
(0, 5)
(5, 0)
No intersection.
No solution
x + y = 7
x + y = 5
E2
Example E.
x + y = 5

Graphs of dependent systems are identical lines, hence every
point on the line is a solution.

x + y = 5
2x + 2y = 10
Solve graphically.{
E1
E2Example F.

2x + 2y = 10 is the same as
x + y = 5
x + y = 5
2x + 2y = 10
Solve graphically.{
E1
E2Example F.

x + y = 5
x y
0 5
5 0
x + y = 5
2x + 2y = 10
Solve graphically.{
E1
E2Example F.

x + y = 5
x y
0 5
5 0
(5, 0)
(0, 5)
x + y = 5
2x + 2y = 10
Solve graphically.{
E1
E2Example F.

x + y = 5
x y
0 5
5 0
(5, 0)
(0, 5)
Every point is a solution,
e.g.(0, 5), (2, 3), (5, 0)…
(2, 3)
x + y = 5
2x + 2y = 10
Solve graphically.{
E1
E2Example F.

4. {–x + 2y = –12
y = 4 – 2x
Exercise. Solve by the substitution method.
1. {y = 3 – x
2x + y = 4
2. 3. {x = 3 – y
2x – y = 6
{x + y = 3
2x + 6 = y
5. {3x + 4y = 3
x = 6 + 2y
6. { x = 3 – 3y
2x – 9y = –4
10. Graph the inconsistent system
{ x + 3y = 4
2x + 6y = 8
{2x – y = 2
8x – 4y = 6
Problem 7, 8, 9: Solve problem 1, 2, and 3 by graphing.
11. Graph the dependent system

Solving Systems of Linear Equations Using Substitution

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