There is at least one scenario where a good case can be made for a core data relationship without an inverse: when there is another core data relationship between the two objects already, which will handle maintaining the object graph.
For instance, a book contains many pages, while a page is in one book. This is a two-way many-to-one relationship. Deleting a page just nullifies the relationship, whereas deleting a book will also delete the page.
However, you may also wish to track the current page being read for each book. This could be done with a "currentPage" property on Page, but then you need other logic to ensure that only one page in the book is marked as the current page at any time. Instead, making a currentPage relationship from Book to a single page will ensure that there will always only be one current page marked, and furthermore that this page can be accessed easily with a reference to the book with simply book.currentPage.
What would the reciprocal relationship be in this case? Something largely nonsensical. "myBook" or similar could be added back in the other direction, but it contains only the information already contained in the "book" relationship for the page, and so creates its own risks. Perhaps in the future, the way you are using one of these relationships is changed, resulting in changes in your core data configuration. If page.myBook has been used in some places where page.book should have been used in the code, there could be problems. Another way to proactively avoid this would also be to not expose myBook in the NSManagedObject subclass that is used to access page. However, it can be argued that it is simpler to not model the inverse in the first place.
In the example outlined, the delete rule for the currentPage relationship should be set to "No Action" or "Cascade", since there is no reciprocal relationship to "Nullify". (Cascade implies you are ripping every page out of the book as you read it, but that might be true if you're particularly cold and need fuel.)
When it can be demonstrated that object graph integrity is not at risk, as in this example, and code complexity and maintainability is improved, it can be argued that a relationship without an inverse may be the correct decision.