You didn't specify the type of the list explicitly and you put in two types of objects, it would seem convenient that it makes this a list of type 'Any' and it doesn't break the rules.
If you had said
val l1: List[Int] = List(1,2,3, "oh really?!") it would have been a different case (as in: it would tell you there's a type mismatch)
It doesn't always just resolve to Any either.
Consider you have a class called Vehicle and two classes inheriting from it called Bike and Car.
val car = new Car
val bike = new Bike
val vehicleList = List(car, bike)
vehicleList will now be of type Vehicle. If you had only put a Car or a Bike in there then it would have been of that specific type.
Optional background information: A List in Scala is covariant, meaning that if Int and String are subtypes of Any, then List[Int] and List[String] are also subtypes of List[Any]. This means you can have a list that contains Integers and Strings and is the reason that your statement is valid and automatically results in a List[Any]. This is not always a given fact by the way and can actually lead to trouble if the list is mutable. Luckily the default List in Scala isn't. If you want to know more, a longer explanation can be found at Covariance, Invariance and Contravariance explained in plain English?