For example, suppose there's a family of classes called
Vehicle whose subclasses include
Automobile; and another family of classes called
Animal whose subclasses include
Horse. A Scala programmer would probably create a trait called
Transportation or something which has
def ride: SomeResult
def ride(rider: Someone): SomeResult
as a member, so she can handle both
Horse as a means of transportation. A Python programmer would just pass the train object without additional code. At the run time the language figures out that the object supports
The fact that the method invocations are resolved at the runtime allows languages like Python and Ruby to have libraries that redefines the meaning of properties or methods. A good example of that is O/R mapping or XML data binding, in which undefined property name is interpreted to be the field name in a table/XML type. I think this is what people mean by "flexibility."
In my very limited experience of using dynamic languages, I think it's faster coding in them as long as you don't make mistakes. And probably as you or your coworkers get good at coding in dynamic language, they would make less mistakes or start writing more unit tests (good luck). In my limited experience, it took me very long to find simple errors in dynamic languages that Scala can catch in a second. Also having all types at compile time makes refactoring easier.