To solve this problem, substitute the given values of j, k, and l into the expression and perform the operations.
6k - j2 + 2k divided by l = (6*12 - 5^2 + 2*12) / 3
= (72 - 25 + 24) / 3
= 71 / 3
Therefore, the value of the expression is approximately 23.67. None of the given options match this value, so the answer is none of the above.
6k - j2 + 2k divided by l =____
j = 5
k = 12
l = 3
A. 70
B. 39
C. 54
D. 55
5 answers
give an exact answer
To give an exact answer, we need to simplify the expression:
6k - j^2 + 2k / l = (6*12 - 5^2 + 2*12) / 3
= (72 - 25 + 24)/ 3
= (72 + 24 - 25) / 3
= 96 - 25 / 3
= 71 / 3
Therefore, the exact answer is 71/3.
6k - j^2 + 2k / l = (6*12 - 5^2 + 2*12) / 3
= (72 - 25 + 24)/ 3
= (72 + 24 - 25) / 3
= 96 - 25 / 3
= 71 / 3
Therefore, the exact answer is 71/3.
no we need one of the answers given in the question
Apologies for the confusion. Let's calculate the expression using the given values and find the closest answer among the given options:
6k - j^2 + 2k / l = (6 * 12 - 5^2 + 2 * 12) / 3
= (72 - 25 + 24) / 3
= 71 / 3
To find the closest answer, we can approximate the result to the nearest whole number:
71 / 3 ≈ 23.67
Among the given options:
A. 70
B. 39
C. 54
D. 55
The closest answer to 23.67 is 39 (Option B).
6k - j^2 + 2k / l = (6 * 12 - 5^2 + 2 * 12) / 3
= (72 - 25 + 24) / 3
= 71 / 3
To find the closest answer, we can approximate the result to the nearest whole number:
71 / 3 ≈ 23.67
Among the given options:
A. 70
B. 39
C. 54
D. 55
The closest answer to 23.67 is 39 (Option B).