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4.04 Equivalent expressions

Lesson

We have previously looked at properties of operations with algebraic terms, and used substitution to evaluate algebraic expressions. Now we are going to use this knowledge to help us identify and create algebraic expressions that are equivalent.

 

Regrouping Numbers

Let's start by looking at what happens with numbers:

Expression 1 Value    Expression 2 Value   Equivalent expressions
$7+7+7+7$7+7+7+7 $28$28   $4\times7$4×7 $28$28   $7+7+7+7=4\times7$7+7+7+7=4×7
$\editable{3}\times10+\editable{5}\times10$3×10+5×10 $80$80   $\editable{6}\times10+\editable{2}\times10$6×10+2×10 $80$80   $3\times10+5\times10=6\times10+2\times10$3×10+5×10=6×10+2×10

 

What we are doing here is grouping like numbers. 

$\editable{3}$3 groups of $10$10 plus $\editable{5}$5 groups of $10$10 has the same value as $\editable{6}$6 groups of $10$10 plus $\editable{2}$2 groups of $10$10.

So $3\times10+5\times10$3×10+5×10 and $6\times10+2\times10$6×10+2×10 are equivalent expressions.

 

Remember!
Equivalent expressions always have the same value.

 

There is nothing special about the numbers used above; this would work with groups of $4$4, or groups of $9.8$9.8, or any other number we choose!

 

Regrouping Variables

Let's use the variable $x$x to represent "an unknown number".

Expression   Expression
$\editable{3}x+\editable{5}x$3x+5x   $\editable{6}x+\editable{2}x$6x+2x

Although $x$x represents an unknown number, it represents the same number anywhere it is used. So we can think of this as $3$3 groups of $x$x plus another $5$5 groups of $x$x, or $8$8 groups of $x$x altogether.

Similarly, we can think of the other expression as $6$6 groups of $x$x plus another $2$2 groups of $x$x, or $8$8 groups of $x$x altogether.

To verify this, we can substitute any value for $x$x. Let's try replacing $x$x with $7$7 in both expressions. For the first expression $3x+5x$3x+5x we get $3\times7+5\times7=56$3×7+5×7=56. For the second expression $6x+2x$6x+2x we get $6\times7+2\times7=56$6×7+2×7=56.  When $7$7 is substituted for $x$x both expressions have a value of $56$56. This confirms that the two expressions are equivalent.

 

Worked examples

Question 1

Is $3x+2y$3x+2y equivalent to $5x$5x?

ThinkSince $x$x and $y$y are different variables, they may represent different numbers.

So we can't say that $3x+2y$3x+2y always has the same value as $5x$5x

These are not equivalent expressions.

ReflectIf we substitute the particular values $x=10$x=10 and $y=3$y=3, we get:

Expression $3x+2y$3x+2y $5x$5x
Value $36$36 $50$50

This verifies that the two expressions definitely are not equivalent!

 

Question 2

What is $5ab-3ba$5ab3ba equivalent to?

ThinkSince $ab$ab and $ba$ba have the same variables, both instances of $a$a represent the same number and both instances of $b$b represent the same number.

Do: We can use the Commutative Property of Multiplication to rewrite $3ba$3ba as $3ab$3ab. This makes it easier to see that $5ab$5ab and $3ab$3ab are like terms since they contain both of the same variables. Now we can combine like terms by subtracting the coefficients and keeping the variables the same.

$5\editable{ab}-3\editable{ab}=2\editable{ab}$5ab3ab=2ab    OR     $2\editable{ba}$2ba

ReflectIf we substitute any values for $a$a and $b$b like $a=3$a=3 and $b=4$b=4, we get:

Expression $5ab-3ba$5ab3ba $2ab$2ab
Value $24$24 $24$24

The two expressions have the same value, as they should!

 

Practice questions

Question 3

Choose all expressions that are equivalent to $7k$7k.

  1. $5k-2k$5k2k

    A

    $6+k+6k-6$6+k+6k6

    B

    $6k$6k

    C

    $7+k$7+k

    D

    $2k+5k$2k+5k

    E

QUESTION 4

Consider the following:

  1. Select the expression that is equivalent to:

    $7s+2b-4s$7s+2b4s

    $3s-2b$3s2b

    A

    $11s+2b$11s+2b

    B

    $3s+2b$3s+2b

    C

    $3b+2w$3b+2w

    D
  2. Select all expressions that are equivalent to:

    $21w+4b$21w+4b

    $14w+7w-4b$14w+7w4b

    A

    $7w+7w+7w+4b$7w+7w+7w+4b

    B

    $21w-8b$21w8b

    C

    $14w+7w+4b$14w+7w+4b

    D

 

 

Outcomes

MA.6.AR.1.4

Apply the properties of operations to generate equivalent algebraic expressions with integer coefficients.

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