You can query about what's logically provable. That means that if you can *infer* that some individual isn't related to any others by some property, you can ask about it. For instance, if you have disjoint classes `Cat`

and `Dog`

, so that nothing can be an instance of both, and you have a `Person`

`jim`

who also has the additional type `hasPet only Cat and Dog`

, then a reasoner can infer that `jim hasPet exactly 0`

.

In the DL query language, you can also use *inverse* properties. The previous example showed that `jim`

has no pets (i.e., is an instance of `hasPet exactly 0`

). You could ask for animals that aren't the pets of anyone by asking for instances of `inverse hasPet exactly 0`

. For instance, if you add disjoint subclasses of `Person`

, `ThisKind`

and `ThatKind`

, and say that `missy`

the `Cat`

`inverse hasPet only ThisKind and ThatKind`

, then a reasoner can infer that no one is related *to* `missy`

by the `hasPet`

property. An ontology for these two examples is given at the end of this answer.

For your particular query, you just combine two class expressions of the forms I've just described:

hasRelationWith exactly 0 and inverse hasRelationWith exactly 0

or, with some parenthesis:

(hasRelationWith exactly 0) and ((inverse hasRelationWith) exactly 0)

It is very important to note, however, that this only returns individuals for which it can be *proven* that there are no such relations. It's not enough for the data to simply not contain such relations yet. OWL makes the open world assumption, meaning something that isn't explicitly stated or provable isn't assumed to be true or false.

### Example ontology

```
@prefix : <http://www.example.org/cardinality-example#> .
@prefix rdfs: <http://www.w3.org/2000/01/rdf-schema#> .
@prefix owl: <http://www.w3.org/2002/07/owl#> .
@prefix xsd: <http://www.w3.org/2001/XMLSchema#> .
@prefix rdf: <http://www.w3.org/1999/02/22-rdf-syntax-ns#> .
:fido a owl:NamedIndividual , :Dog .
:Dog a owl:Class .
:fluffy a owl:NamedIndividual , :Cat ;
a [ a owl:Class ;
owl:intersectionOf ( :ThatKind [ a owl:Restriction ;
owl:allValuesFrom :ThisKind ;
owl:onProperty [ owl:inverseOf :hasPet ]
] )
] .
:ThatKind a owl:Class ;
rdfs:subClassOf :Person ;
owl:disjointWith :ThisKind .
:rover a owl:NamedIndividual , :Dog .
:hasPet a owl:ObjectProperty .
<http://www.example.org/cardinality-example>
a owl:Ontology .
:Person a owl:Class .
:jim a owl:NamedIndividual , :Person ;
a [ a owl:Restriction ;
owl:cardinality "0"^^xsd:nonNegativeInteger ;
owl:onProperty :hasPet
] .
:missy a owl:NamedIndividual , :Cat .
:Cat a owl:Class ;
owl:disjointWith :Dog .
:ThisKind a owl:Class ;
rdfs:subClassOf :Person .
```