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1.6 - Relations. Relation. Relation – a set of ordered pairs. Relation – a set of ordered pairs (relationship btw. 2 numbers!). Relation – a set of ordered pairs (relationship btw. 2 numbers!) Ways to Represent Relations: . Relation – a set of ordered pairs
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Relation – a set of ordered pairs (relationship btw. 2 numbers!)
Relation – a set of ordered pairs (relationship btw. 2 numbers!) Ways to Represent Relations:
Relation – a set of ordered pairs (relationship btw. 2 numbers!) Ways to Represent Relations: as a set
Relation – a set of ordered pairs (relationship btw. 2 numbers!) Ways to Represent Relations: as a set in a table
Relation – a set of ordered pairs (relationship btw. 2 numbers!) Ways to Represent Relations: as a set in a table on a graph
Relation – a set of ordered pairs (relationship btw. 2 numbers!) Ways to Represent Relations: as a set in a table on a graph in a mapping
Relation – a set of ordered pairs (relationship btw. 2 numbers!) Ways to Represent Relations: as a set in a table on a graph in a mapping Example 1 (a) Express the relation {(-1,2),(0,-3),(-3,2),(-2,-2)} as:
Relation – a set of ordered pairs (relationship btw. 2 numbers!) Ways to Represent Relations: as a set in a table on a graph in a mapping Example 1 (a) Express the relation {(-1,2),(0,-3),(-3,2),(-2,-2)} as: 1. a table
Relation – a set of ordered pairs (relationship btw. 2 numbers!) Ways to Represent Relations: as a set in a table on a graph in a mapping Example 1 (a) Express the relation {(-1,2),(0,-3),(-3,2),(-2,-2)} as: 1. a table x y
Relation – a set of ordered pairs (relationship btw. 2 numbers!) Ways to Represent Relations: as a set in a table on a graph in a mapping Example 1 (a) Express the relation {(-1,2),(0,-3),(-3,2),(-2,-2)} as: 1. a table x y
Relation – a set of ordered pairs (relationship btw. 2 numbers!) Ways to Represent Relations: as a set in a table on a graph in a mapping Example 1 (a) Express the relation {(-1,2),(0,-3),(-3,2),(-2,-2)} as: 1. a table x y
Relation – a set of ordered pairs (relationship btw. 2 numbers!) Ways to Represent Relations: as a set in a table on a graph in a mapping Example 1 (a) Express the relation {(-1,2),(0,-3),(-3,2),(-2,-2)} as: 1. a table x y
Relation – a set of ordered pairs (relationship btw. 2 numbers!) Ways to Represent Relations: as a set in a table on a graph in a mapping Example 1 (a) Express the relation {(-1,2),(0,-3),(-3,2),(-2,-2)} as: 1. a table x y
2. a graph Graph the set of ordered pairs{(-1,2),(0,-3),(-3,2),(-2,-2)}
2. a graph Graph the set of ordered pairs{(-1,2),(0,-3),(-3,2),(-2,-2)}
2. a graph Graph the set of ordered pairs{(-1,2),(0,-3),(-3,2),(-2,-2)}
2. a graph Graph the set of ordered pairs{(-1,2),(0,-3),(-3,2),(-2,-2)}
2. a graph Graph the set of ordered pairs{(-1,2),(0,-3),(-3,2),(-2,-2)}
2. a graph Graph the set of ordered pairs{(-1,2),(0,-3),(-3,2),(-2,-2)}
2. a graph Graph the set of ordered pairs{(-1,2),(0,-3),(-3,2),(-2,-2)}
2. a graph Graph the set of ordered pairs{(-1,2),(0,-3),(-3,2),(-2,-2)}
2. a graph Graph the set of ordered pairs{(-1,2),(0,-3),(-3,2),(-2,-2)}
2. a graph Graph the set of ordered pairs{(-1,2),(0,-3),(-3,2),(-2,-2)}
3. a mapping X Y
3. a mapping X Y -3 -2 -1 0
3. a mapping X Y -3 -3 -2 -2 -1 2 0
3. a mapping {(-1,2),(0,-3),(-3,2),(-2,-2)} X Y -3 -3 -2 -2 -1 2 0
3. a mapping {(-1,2),(0,-3),(-3,2),(-2,-2)} X Y -3 -3 -2 -2 -1 2 0
3. a mapping {(-1,2),(0,-3),(-3,2),(-2,-2)} X Y -3 -3 -2 -2 -1 2 0
3. a mapping {(-1,2),(0,-3),(-3,2),(-2,-2)} X Y -3 -3 -2 -2 -1 2 0
3. a mapping {(-1,2),(0,-3),(-3,2),(-2,-2)} X Y -3 -3 -2 -2 -1 2 0
Inverse Relation - switch the x and y values in each ordered pair!
Inverse Relation - switch the x and y values in each ordered pair! Example 2 Express the relation as a set of ordered pairs. State the domain and range, then write the inverse relation.
Inverse Relation - switch the x and y values in each ordered pair! Example 2 Express the relation as a set of ordered pairs. State the domain and range, then write the inverse relation.
Inverse Relation - switch the x and y values in each ordered pair! Example 2 Express the relation as a set of ordered pairs. State the domain and range, then write the inverse relation.
Inverse Relation - switch the x and y values in each ordered pair! Example 2 Express the relation as a set of ordered pairs. State the domain and range, then write the inverse relation. {(2,-4),
Inverse Relation - switch the x and y values in each ordered pair! Example 2 Express the relation as a set of ordered pairs. State the domain and range, then write the inverse relation. {(2,-4),
Inverse Relation - switch the x and y values in each ordered pair! Example 2 Express the relation as a set of ordered pairs. State the domain and range, then write the inverse relation. {(2,-4),(3,-4),
Inverse Relation - switch the x and y values in each ordered pair! Example 2 Express the relation as a set of ordered pairs. State the domain and range, then write the inverse relation. {(2,-4),(3,-4),
Inverse Relation - switch the x and y values in each ordered pair! Example 2 Express the relation as a set of ordered pairs. State the domain and range, then write the inverse relation. {(2,-4),(3,-4),(5,-7),
Inverse Relation - switch the x and y values in each ordered pair! Example 2 Express the relation as a set of ordered pairs. State the domain and range, then write the inverse relation. {(2,-4),(3,-4),(5,-7),
Inverse Relation - switch the x and y values in each ordered pair! Example 2 Express the relation as a set of ordered pairs. State the domain and range, then write the inverse relation. {(2,-4),(3,-4),(5,-7),(6,-8)}
Inverse Relation - switch the x and y values in each ordered pair! Example 2 Express the relation as a set of ordered pairs. State the domain and range, then write the inverse relation. {(2,-4),(3,-4),(5,-7),(6,-8)}
Inverse Relation - switch the x and y values in each ordered pair! Example 2 Express the relation as a set of ordered pairs. State the domain and range, then write the inverse relation. {(2,-4),(3,-4),(5,-7),(6,-8)} Domain: