| appearance as argument number 1 |
|
| No TPTP formula. May not be expressible in strict first order. | People.kif 39-48 | |
| No TPTP formula. May not be expressible in strict first order. | People.kif 36-36 | The number 1 argument of population growth is an instance of geopolitical area |
| No TPTP formula. May not be expressible in strict first order. | People.kif 37-37 | The number 2 argument of population growth is an instance of year |
| No TPTP formula. May not be expressible in strict first order. | People.kif 35-35 | Population growth is an instance of binary function |
| No TPTP formula. May not be expressible in strict first order. | People.kif 38-38 | The range of population growth is an instance of real number |
| appearance as argument number 2 |
|
|
| No TPTP formula. May not be expressible in strict first order. | domainEnglishFormat.kif 1999-1999 | |
| No TPTP formula. May not be expressible in strict first order. | domainEnglishFormat.kif 1998-1998 | |
| No TPTP formula. May not be expressible in strict first order. | domainEnglishFormat.kif 1997-1997 | |
| No TPTP formula. May not be expressible in strict first order. | domainEnglishFormat.kif 46700-46700 | |
| No TPTP formula. May not be expressible in strict first order. | domainEnglishFormat.kif 46699-46699 | |
| No TPTP formula. May not be expressible in strict first order. | domainEnglishFormat.kif 46698-46698 |
| antecedent |
|
|
| No TPTP formula. May not be expressible in strict first order. | People.kif 52-64 | A year is an instance of the year an integer and the population growth of a geopolitical area and the year is equal to a real number if and only if (the integer and the integerP) is equal to 1 and a time position is an instance of the year the integerP and the population of the geopolitical area is equal to another real number holds during the year and the population of the geopolitical area is equal to a third real number holds during the time position and the other real number and the third real number is equal to a fourth real number and (the fourth real number and 1) is equal to the real number |
|
Show full definition with tree view
Show simplified definition (without tree view)
Show simplified definition (with tree view)
|
|
Sigma web home Suggested Upper Merged Ontology (SUMO) web home
Sigma version 3.0 is open source software produced by Articulate Software and its partners