It can be arranged in six possible ways.
three
6 different ways
There are four different groups of three, each of which can be arranged in six different ways so your answer is 24.
Three numbers can be arranged in 27 different sequences if repetition is allowed, and in 6 different sequences if it's not.
They can't be arranged in a million different ways!
There are three main parts of a lever: the fulcrum, effort arm, and load arm. These parts can be arranged in different ways depending on the placement of the fulcrum relative to the effort and load. The three classes of levers (first-class, second-class, and third-class) demonstrate how these parts can be arranged differently to achieve mechanical advantage or leverage in different scenarios.
4! = 24, they can be arranged in 24 different ways
raisesiresrises------------------------------------They can be arranged in 5!=120 ways.
18
81
52!
5! = 120