$\"\"$

The relation is $\"\"$

Make a table: \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \
\
x
\ \
y = x-3
\ \

\
\
12
\ \
9
\ \
(Substitute $\"\"$ , $\"\"$ )
\
\
15
\ \
12
\ \
(Substitute $\"\"$ , $\"\"$ )
\
\
22
\ \
19
\ \
(Substitute $\"\"$ , $\"\"$ )
\
\
30
\ \
27
\ \
(Substitute $\"\"$ , $\"\"$ )
\
\ Express the relation as ordered pairs. $\"\"$ $\"\"$

Create a coordinate system and plot the ordered pairs. Draw a line through the points

Since x can be any real number, there are an infinite number of ordered pairs that can be graphed. All of them lie on the line shown $\"\"$

Every real number is the x-coordinate of some point on the line.

So, the domain (x-coordinates on the line) is set of all real numbers.

Every real number is the y-coordinate of some point on the line.

So, the range (y-coordinates on the line) is also set of all real numbers.

The relation is Continuous.

$\"\"$

Draw the vertical lines through the points. Observe that there is no vertical line

contains more than one of the points.

This graph passes the vertical line test. For each x-value, there is exactly one

y-value, so the equation y = x -3 represents a function.

$\"\"$ $\"\"$

The domain (x-coordinates on the line) is set of all real numbers.

The range (y-coordinates on the line) is also set of all real numbers.

The relation is Continuous.

The equation y = x - 3 represents a function.

\ x \	\ *y = x-3* \	\ \
\ 12 \	\ 9 \	\ (Substitute $\"\"$ , $\"\"$ ) \
\ 15 \	\ 12 \	\ (Substitute $\"\"$ , $\"\"$ ) \
\ 22 \	\ 19 \	\ (Substitute $\"\"$ , $\"\"$ ) \
\ 30 \	\ 27 \	\ (Substitute $\"\"$ , $\"\"$ ) \