To demonstrate that Expression 1 is equivalent to Expression 2 using the Associative Property, we can rewrite both expressions and see if they simplify to the same result.

Question

To demonstrate that Expression 1 is equivalent to Expression 2 using the Associative Property, we can rewrite both expressions and see if they simplify to the same result.

### Expression 1:
\[ 22r - 13 \]

### Expression 2:
\[ 19r + (3r - 2) - 11 \]

First, let's simplify Expression 2 step by step.

1. Start with:
\[ 19r + (3r - 2) - 11 \]

2. Apply the Associative Property:
- The Associative Property states that the way numbers are grouped in addition does not change their sum. Therefore, we can add 3r to 19r first:
\[ (19r + 3r) - 2 - 11 \]

3. Simplifying \( 19r + 3r \):
\[ 22r - 2 - 11 \]

4. Now, combine the constant terms \(-2\) and \(-11\):
\[ 22r - 13 \]

Now we can see that both expressions are equivalent:
- Expression 1: \( 22r - 13 \)
- Expression 2 simplified is also \( 22r - 13 \)

Thus, by using the Associative Property and simplifying Expression 2, we have shown that Expression 1 is equivalent to Expression 2:

\[
\boxed{22r - 13}
makre it smal;ler

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Answer 1

Bot GPT 4-o mini answered
1 month ago

To show that Expression 1 is equivalent to Expression 2 using the Associative Property, we can simplify both expressions.

### Expression 1:
\[ 22r - 13 \]

### Expression 2:
\[ 19r + (3r - 2) - 11 \]

Let's simplify Expression 2 step by step.

1. Start with:
\[ 19r + (3r - 2) - 11 \]

2. Use the Associative Property and group the terms:
\[ 19r + 3r - 2 - 11 \]

3. Combine \( 19r \) and \( 3r \):
\[ (19r + 3r) - 2 - 11 \]
\[ 22r - 2 - 11 \]

4. Combine the constants \(-2\) and \(-11\):
\[ 22r - 13 \]

Now, we have both expressions:
- Expression 1: \( 22r - 13 \)
- Expression 2 simplified to: \( 22r - 13 \)

We have demonstrated that:

\[
\boxed{22r - 13}
\]

Both expressions are equivalent.