Connect the model −135+27+27+27+27+27=0 to the algorithm for solving the division problem it models.(1 point)
Responses
The model represents −135÷(−27), which is solved by dividing 135 by 27 to get 5.
The model represents −135÷27, which is solved by dividing 135 by 27 and changing the sign to get −5.
The model represents −135÷27, which is solved by dividing 135 by 27 to get 5.
The model represents −135÷(−27), which is solved by dividing 135 by 27 and changing the sign to get −5.
The model represents −135÷27, which is solved by dividing 135 by 27 and changing the sign to get −5.
The model represents−5÷(−1), which is solved by dividing 5 by 1 and changing the sign to get −5.
The model represents −135÷27, which is solved by dividing 135 by 27 and changing the sign to get −5.
To solve the division problem represented by the model -135+27+27+27+27+27=0, we need to divide -135 by either -27 or 27.
First, let's determine the correct sign to use. The model uses a negative sign before the 135, so we know the answer will be negative. This means we need to divide -135 by -27 to get the correct solution.
So, the correct answer is:
The model represents −135÷(−27), which is solved by dividing 135 by 27 to get 5 and then changing the sign to get -5.
Therefore, the correct response is "The model represents −135÷(−27), which is solved by dividing 135 by 27 to get 5."
Connect the model −5−(−1)−(−1)−(−1)−(−1)−(−1)=0 to the algorithm for solving the division problem it models.(1 point)
Responses
The model represents −5÷(−1), which is solved by dividing 5 by 1 to get 5.
The model represents −5÷1, which is solved by dividing 5 by 1 to get 5.
The model represents−5÷(−1), which is solved by dividing 5 by 1 and changing the sign to get −5.
The model represents −5÷1, which is solved by dividing 5 by 1 and changing the sign to get −5.