6.1 – Graphing Systems of Equations

6.1 – Graphing Systems of Equations

Ex. 1 Use the graph to determine whether each system has no solution, one solution, or infinitely many solutions.

Ex. 1 Use the graph to determine whether each system has no solution, one solution, or infinitely many solutions.

a. y = -x + 1

y = x – 3

y = -x + 1

y = x – 3y = -x – 2

Ex. 1 Use the graph to determine whether each system has no solution, one solution, or infinitely many solutions.

a. y = -x + 1

y = x – 3

y = -x + 1

y = x – 3y = -x – 2

Ex. 1 Use the graph to determine whether each system has no solution, one solution, or infinitely many solutions.

a. y = -x + 1

y = x – 3

y = -x + 1

y = x – 3y = -x – 2

Ex. 1 Use the graph to determine whether each system has no solution, one solution, or infinitely many solutions.

a. y = -x + 1

y = x – 3

y = -x + 1

y = x – 3y = -x – 2

Ex. 1 Use the graph to determine whether each system has no solution, one solution, or infinitely many solutions.

a. y = -x + 1

y = x – 3

y = -x + 1

y = x – 3y = -x – 2

Ex. 1 Use the graph to determine whether each system has no solution, one solution, or infinitely many solutions.

a. y = -x + 1

y = x – 3

y = -x + 1

y = x – 3y = -x – 2

Ex. 1 Use the graph to determine whether each system has no solution, one solution, or infinitely many solutions.

a. y = -x + 1

y = x – 3

One Sol.

y = -x + 1

y = x – 3y = -x – 2

Ex. 1 Use the graph to determine whether each system has no solution, one solution, or infinitely many solutions.

a. y = -x + 1

y = x – 3

One Sol.

b. y = -x + 1

2y = -2x – 4

y = -x + 1

y = x – 3y = -x – 2

Ex. 1 Use the graph to determine whether each system has no solution, one solution, or infinitely many solutions.

a. y = -x + 1

y = x – 3

One Sol.

b. y = -x + 1

2y = -2x – 4

y = -x + 1

y = x – 3y = -x – 2

Ex. 1 Use the graph to determine whether each system has no solution, one solution, or infinitely many solutions.

a. y = -x + 1

y = x – 3

One Sol.

b. y = -x + 1

2y = -2x – 4

y = -x + 1

y = x – 3y = -x – 2

Ex. 1 Use the graph to determine whether each system has no solution, one solution, or infinitely many solutions.

a. y = -x + 1

y = x – 3

One Sol.

b. y = -x + 1

2y = -2x – 4

2 2 2

y = -x + 1

y = x – 3y = -x – 2

Ex. 1 Use the graph to determine whether each system has no solution, one solution, or infinitely many solutions.

a. y = -x + 1

y = x – 3

One Sol.

b. y = -x + 1

y = -x – 2

y = -x + 1

y = x – 3y = -x – 2

Ex. 1 Use the graph to determine whether each system has no solution, one solution, or infinitely many solutions.

a. y = -x + 1

y = x – 3

One Sol.

b. y = -x + 1

y = -x – 2

y = -x + 1

y = x – 3y = -x – 2

Ex. 1 Use the graph to determine whether each system has no solution, one solution, or infinitely many solutions.

a. y = -x + 1

y = x – 3

One Sol.

b. y = -x + 1

y = -x – 2

y = -x + 1

y = x – 3y = -x – 2

Ex. 1 Use the graph to determine whether each system has no solution, one solution, or infinitely many solutions.

a. y = -x + 1

y = x – 3

One Sol.

b. y = -x + 1

y = -x – 2

No Sol.

y = -x + 1

y = x – 3y = -x – 2

Ex. 1 Use the graph to determine whether each system has no solution, one solution, or infinitely many solutions.a. y = -x + 1 y = x – 3

One Sol.b. y = -x + 1

y = -x – 2 No Sol. c. 2y = -2x – 4 y = -x – 2

y = -x + 1

y = x – 3y = -x – 2

Ex. 1 Use the graph to determine whether each system has no solution, one solution, or infinitely many solutions.a. y = -x + 1 y = x – 3

One Sol.b. y = -x + 1

y = -x – 2 No Sol. c. 2y = -2x – 4 y = -x – 2

y = -x + 1

y = x – 3y = -x – 2

Ex. 1 Use the graph to determine whether each system has no solution, one solution, or infinitely many solutions.a. y = -x + 1 y = x – 3

One Sol.b. y = -x + 1

y = -x – 2 No Sol. c. 2y = -2x – 4

2 2 2 y = -x – 2

y = -x + 1

y = x – 3y = -x – 2

Ex. 1 Use the graph to determine whether each system has no solution, one solution, or infinitely many solutions.a. y = -x + 1 y = x – 3

One Sol.b. y = -x + 1

y = -x – 2 No Sol. c. y = -x – 2 y = -x – 2

y = -x + 1

y = x – 3y = -x – 2

Ex. 1 Use the graph to determine whether each system has no solution, one solution, or infinitely many solutions.a. y = -x + 1 y = x – 3

One Sol.b. y = -x + 1

y = -x – 2 No Sol. c. y = -x – 2 y = -x – 2

y = -x + 1

y = x – 3y = -x – 2

Ex. 1 Use the graph to determine whether each system has no solution, one solution, or infinitely many solutions.a. y = -x + 1 y = x – 3

One Sol.b. y = -x + 1

y = -x – 2 No Sol. c. y = -x – 2 y = -x – 2

y = -x + 1

y = x – 3y = -x – 2

Ex. 1 Use the graph to determine whether each system has no solution, one solution, or infinitely many solutions.a. y = -x + 1 y = x – 3

One Sol.b. y = -x + 1

y = -x – 2 No Sol. c. y = -x – 2 y = -x – 2

y = -x + 1

y = x – 3y = -x – 2

Ex. 1 Use the graph to determine whether each system has no solution, one solution, or infinitely many solutions.a. y = -x + 1 y = x – 3

One Sol.b. y = -x + 1

y = -x – 2 No Sol. c. y = -x – 2 y = -x – 2

Infinite Sol.

y = -x + 1

y = x – 3y = -x – 2

Ex. 2 Graph each system of equations. Determine if the system has no, one, or infinitely many solutions. If it has one solutions, name it.

a. y = 2x – 1

y = -2x – 1

Ex. 2 Graph each system of equations. Determine if the system has no, one, or infinitely many solutions. If it has one solutions, name it.

a. y = 2x – 1

m = 2

y = -2x – 1

Ex. 2 Graph each system of equations. Determine if the system has no, one, or infinitely many solutions. If it has one solutions, name it.

a. y = 2x – 1

m = 2, b = -1

y = -2x – 1

Ex. 2 Graph each system of equations. Determine if the system has no, one, or infinitely many solutions. If it has one solutions, name it.

a. y = 2x – 1

m = 2, b = -1

y = -2x – 1

Ex. 2 Graph each system of equations. Determine if the system has no, one, or infinitely many solutions. If it has one solutions, name it.

a. y = 2x – 1

m = 2, b = -1

y = -2x – 1

Ex. 2 Graph each system of equations. Determine if the system has no, one, or infinitely many solutions. If it has one solutions, name it.

a. y = 2x – 1

m = 2, b = -1

y = -2x – 1

Ex. 2 Graph each system of equations. Determine if the system has no, one, or infinitely many solutions. If it has one solutions, name it.

a. y = 2x – 1

m = 2, b = -1

y = -2x – 1

Ex. 2 Graph each system of equations. Determine if the system has no, one, or infinitely many solutions. If it has one solutions, name it.

a. y = 2x – 1

m = 2, b = -1

y = -2x – 1

Ex. 2 Graph each system of equations. Determine if the system has no, one, or infinitely many solutions. If it has one solutions, name it.

a. y = 2x – 1

m = 2, b = -1

y = -2x – 1

m = -2

Ex. 2 Graph each system of equations. Determine if the system has no, one, or infinitely many solutions. If it has one solutions, name it.

a. y = 2x – 1

m = 2, b = -1

y = -2x – 1

m = -2, b = -1

Ex. 2 Graph each system of equations. Determine if the system has no, one, or infinitely many solutions. If it has one solutions, name it.

a. y = 2x – 1

m = 2, b = -1

y = -2x – 1

m = -2, b = -1

Ex. 2 Graph each system of equations. Determine if the system has no, one, or infinitely many solutions. If it has one solutions, name it.

a. y = 2x – 1

m = 2, b = -1

y = -2x – 1

m = -2, b = -1

Ex. 2 Graph each system of equations. Determine if the system has no, one, or infinitely many solutions. If it has one solutions, name it.

a. y = 2x – 1

m = 2, b = -1

y = -2x – 1

m = -2, b = -1

Ex. 2 Graph each system of equations. Determine if the system has no, one, or infinitely many solutions. If it has one solutions, name it.

a. y = 2x – 1

m = 2, b = -1

y = -2x – 1

m = -2, b = -1

Ex. 2 Graph each system of equations. Determine if the system has no, one, or infinitely many solutions. If it has one solutions, name it.

a. y = 2x – 1

m = 2, b = -1

y = -2x – 1

m = -2, b = -1

Ex. 2 Graph each system of equations. Determine if the system has no, one, or infinitely many solutions. If it has one solutions, name it.

a. y = 2x – 1

m = 2, b = -1

y = -2x – 1

m = -2, b = -1

One sol. @ (0,-1)

b. 2x + 3y = 6

-4x – 6y = -12

b. 2x + 3y = 6

3y = -2x + 6

-4x – 6y = -12

b. 2x + 3y = 6

3y = -2x + 6

y = -⅔x + 2

-4x – 6y = -12

b. 2x + 3y = 6

3y = -2x + 6

y = -⅔x + 2

m = -2

3

-4x – 6y = -12

b. 2x + 3y = 6

3y = -2x + 6

y = -⅔x + 2

m = -2 , b = 2

3

-4x – 6y = -12

b. 2x + 3y = 6

3y = -2x + 6

y = -⅔x + 2

m = -2 , b = 2

3

-4x – 6y = -12

b. 2x + 3y = 6

3y = -2x + 6

y = -⅔x + 2

m = -2 , b = 2

3

-4x – 6y = -12

b. 2x + 3y = 6

3y = -2x + 6

y = -⅔x + 2

m = -2 , b = 2

3

-4x – 6y = -12

b. 2x + 3y = 6

3y = -2x + 6

y = -⅔x + 2

m = -2 , b = 2

3

-4x – 6y = -12

b. 2x + 3y = 6

3y = -2x + 6

y = -⅔x + 2

m = -2 , b = 2

3

-4x – 6y = -12

b. 2x + 3y = 6

3y = -2x + 6

y = -⅔x + 2

m = -2 , b = 2

3

-4x – 6y = -12

-6y = 4x – 12

b. 2x + 3y = 6

3y = -2x + 6

y = -⅔x + 2

m = -2 , b = 2

3

-4x – 6y = -12

-6y = 4x – 12

y = -⅔x + 2

b. 2x + 3y = 6

3y = -2x + 6

y = -⅔x + 2

m = -2 , b = 2

3

-4x – 6y = -12

-6y = 4x – 12

y = -⅔x + 2

b. 2x + 3y = 6

3y = -2x + 6

y = -⅔x + 2

m = -2 , b = 2

3

-4x – 6y = -12

-6y = 4x – 12

y = -⅔x + 2

Same line, therefore infinite sol.

c. 2x + y = 1

y = -2x – 1

c. 2x + y = 1

y = -2x + 1

m = -2, b = 1

y = -2x – 1

m = -2, b = -1

Parallel lines, therefore no sol.