To find the correct equation that models Mateo’s movements while using the commutative property, let's break down his movements:
- He begins at sea level, which we can consider as 0.
- He dives down 15 meters, which would be represented by -15.
- He then rises up 4 meters, which is +4.
- Lastly, he dives down another 7 meters, represented by -7.
We can express Mateo's total movement with the equation: \[ (-15) + 4 + (-7) \]
Now, applying the commutative property means rearranging the terms in the expression without changing the result.
Analyzing the options:
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Option 1: \((-15) + 4 + (-7) = (-7) + (-15) + (-4)\)
- This is incorrect because it mistakenly changes +4 to -4 on the right side.
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Option 2: \((-15) + 4 + (-7) = 7 + 15 + (-4)\)
- This is incorrect because it introduces positive values incorrectly and changes the terms inaccurately.
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Option 3: \((-15) + 4 + (-7) = 4 + (-15) + (-7)\)
- This is correct because it properly rearranges the terms using the commutative property.
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Option 4: \((-15) + 4 + (-7) = 4 + 15 + 7\)
- This is incorrect, as it mistakenly changes -15 to +15 and -7 to +7.
Therefore, the correct equation modeling Mateo's movements while using the commutative property is:
Option 3: \((-15) + 4 + (-7) = 4 + (-15) + (-7)\)