It's amazing how much confusion has been created about the distinction between the UML part-whole-relationship concepts aggregation and composition. The main problem is the widespread misunderstanding (even among many expert software developers) that the concept of composition is defined by a life-cycle dependency between the whole and its parts such that the parts cannot exist without the whole. But this view is plain wrong, confusing the defining charcteristic with an optional charcteristic.
As Martin Fowler has explained, the main issue for characterizing composition is that "an object can only be the part of one composition relationship". This is also explained in the excellent blog post UML Composition vs Aggregation vs Association by Geert Bellekens. In addition to this defining characteristic of a composition (to have exclusive, or non-shareable, parts), a composition may also come with a life-cycle dependency between the whole and its parts implying that when a whole is destroyed, all of its parts are destroyed with it. However, this only applies to some cases of composition, and not to others, and it is therefore not a defining characteristic. The UML spec states: "A part may be removed from a composite instance before the composite instance is deleted, and thus not be deleted as part of the composite instance." In the example of a
Engine composition, it's clearly the case that the engine can be removed from the car before the car is destroyed, in which case the engine is not destroyed and can be re-used.
Tthe multiplicity of a composition's association end at the whole side is either 1 or 0..1, depending on the fact if parts are separable, that is, if they can be detached and exist on their own.
An aggregation is another special form of association with the intended meaning of a part-whole-relationship, where the parts of a whole can be shared with other wholes. For instance, we can model an aggregation between the classes
Lecture since a lecture is part of a course and a lecture can be shared among two courses (e.g. a database management course and a software engineering course could share a lecture on UML). However, this characteristic of shareable parts doesn't mean much, really, so the UML concept of an aggregation doesn't have much semantics (the UML spec says: "Precise semantics of shared aggregation varies by application area and modeler").
The multiplicity of an aggregation's association end at the whole side may be any number (*) because a part may belong to, or shared among, any number of wholes.