Because Monad already is a known term in category theory. There are also 3 very important Monad laws, that a Monad has to adhere to.

In theory, we could call Monads whatever we'd like, i.e. "FlatMappable" or "Bindable", but the name "Monad" is already an established term in the functional programming community and is deeply linked to the Monad laws.

As to why you should learn to appreciate Monads over learning each api individually, it's all about abstraction and reuse of knowledge. Oftentimes when we look at a new concept we compare them to concepts we already know.

If you already understand the Future Monad, understanding the Task Monad will be much easier.

It's also good to mention, that `for-comprehensions`

in Scala work exclusively on Monads. In fact `for-comprehensions`

are just syntactic sugar for `flatMap`

and `map`

(there's also `filter`

, but that's not incredibly relevant to Monads). So recognizing if something is a Monad instance, enables you to utilize this extra piece of syntactic sugar.

Also once you fully grasp the abstraction you can make use of concepts like Monad transformers, where the actual type of the Monad is less important.

Lastly, here are the Monad laws for completeness sake:

- Left identity:
`M[F].pure(x).flatMap(f) == f(x)`

- Right identity:
`m.flatMap(pure(_)) == m`

- Associativity:
`m.flatMap(f).flatMap(g) == m.flatMap(x => f(x).flatMap(g))`