$\"\"$

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The equation is $\"\"$ .

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Solve the equation.

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$\"\"$ (Original equation)

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$\"\"$ (Multiply each side by $\"\"$ )

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$\"\"$ (Cancel common terms)

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$\"\"$ (Distributive property: $\"\"$ )

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$\"\"$ (Subtract $\"\"$ from each side)

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$\"\"$ (Apply additive inverse property: $\"\"$ )

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$\"\"$ (Divide each side by $\"\"$ )

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$\"\"$ (Cancel common terms)

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Find intercepts.

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Case(i).

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Find the $\"\"$ -intercept.

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$\"\"$ (Original equation)

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$\"\"$ (Substitute $\"\"$ )

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$\"\"$ (Multiply each side by $\"\"$ )

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$\"\"$ (Cancel common terms)

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$\"\"$ (Subtract $\"\"$ from each side)

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$\"\"$ (Apply additive inverse property: $\"\"$ )

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$\"\"$ (Divide each side by $\"\"$ )

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$\"\"$ (Cancel common terms)

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The $\"\"$ -intercept is $\"\"$ .

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The graph crosses the $\"\"$ -axis at $\"\"$ .

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Case(ii).

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Find the $\"\"$ -intercept.

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$\"\"$ (Substitute $\"\"$ )

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$\"\"$ (Multiply)

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The $\"\"$ -intercept is $\"\"$ .

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The graph crosses the $\"\"$ -axis at $\"\"$ . $\"\"$

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Graph:

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Graph the linear function is $\"\"$ .

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Plot the ordered pairs are $\"\"$ and $\"\"$ .

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$\"Linear$

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$\"\"$

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$\"\"$ -intercept is $\"\"$ and the $\"\"$ -intercept is $\"\"$ .

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Graph of line equation $\"\"$ .

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$\"Linear$