\"\"

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If the equation has variables on both sides of the equation, first add or subtract one of the terms

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from both sides of the equation so that the variable is left on only one side of the equation.

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Then solve the equations uses the same steps.

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Case(i):

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Consider the equation is \"\" with varible on both sides.

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\"\"                        (Original equation)

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\"\"       (Add \"\" to each side)

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\"\"                                (Apply additive inverse 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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Therefore,The equation is solve to used \"\" steps.

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\"\"

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Case(ii):

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Consider the equation is \"\".

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\"\"                               (Original equation)

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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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Therefore, the equation is solve to used same steps.

\

If the equation has variables on both sides of the equation, first add or subtract one of the terms

\

from both sides of the equation so that the variable is left on only one side of the equation.

\

The steps for solving an equation with variable on both size are the same as a multi-step equation.

\

\"\"

\

If the equation has variables on both sides of the equation, first add or subtract one of the terms

\

from both sides of the equation so that the variable is left on only one side of the equation.

\

The steps for solving an equation with variable on both size are the same as a multi-step equation.