Question

Albert claims that −6 is the greatest integer solution of the inequality 3x−1≤35+9x. Solve the inequality to show if Albert is correct or not.

Answer 1

To solve the inequality 3x-1 ≤ 35+9x, isolate the variable x on one side of the inequality by performing operations on both sides. The greatest integer solution is -6, confirming Albert's claim.

Step-by-step explanation:

To solve the inequality 3x-1 ≤ 35+9x, we need to isolate the variable x on one side of the inequality.

Starting with the given inequality: 3x-1 ≤ 35+9x

First, we can subtract 3x from both sides to eliminate the 3x term from the left side: -1 ≤ 35+6x

Next, we can subtract 35 from both sides to isolate the variable term: -1-35 ≤ 6x

Combining like terms: -36 ≤ 6x

Finally, we can divide both sides by 6 to solve for x: -6 ≤ x

Therefore, Albert is correct in claiming that -6 is the greatest integer solution of the inequality.