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406
All people who regularly drink coffee are dependent on caffeine. People regularly drink coffee, or they don't want to be addicted to caffeine, or both. No one who doesn't want to be addicted to caffeine is unaware that caffeine is a drug. Rina is either a student who is unaware that caffeine is a drug, or she is not a student and is she aware that caffeine is a drug. Rina is either a student who is dependent on caffeine, or she is not a student and not dependent on caffeine.
∀x (DrinkRegularly(x, coffee) → IsDependentOn(x, caffeine)) ∀x (DrinkRegularly(x, coffee) ∨ (¬WantToBeAddictedTo(x, caffeine))) ∀x (¬WantToBeAddictedTo(x, caffeine) → ¬AwareThatDrug(x, caffeine)) ¬(Student(rina) ⊕ ¬AwareThatDrug(rina, caffeine)) ¬(IsDependentOn(rina, caffeine) ⊕ Student(rina))
Rina doesn't want to be addicted to caffeine or is unaware that caffeine is a drug.
¬WantToBeAddictedTo(rina, caffeine) ∨ (¬AwareThatDrug(rina, caffeine))
True
1,126
406
All people who regularly drink coffee are dependent on caffeine. People regularly drink coffee, or they don't want to be addicted to caffeine, or both. No one who doesn't want to be addicted to caffeine is unaware that caffeine is a drug. Rina is either a student who is unaware that caffeine is a drug, or she is not a student and is she aware that caffeine is a drug. Rina is either a student who is dependent on caffeine, or she is not a student and not dependent on caffeine.
∀x (DrinkRegularly(x, coffee) → IsDependentOn(x, caffeine)) ∀x (DrinkRegularly(x, coffee) ∨ (¬WantToBeAddictedTo(x, caffeine))) ∀x (¬WantToBeAddictedTo(x, caffeine) → ¬AwareThatDrug(x, caffeine)) ¬(Student(rina) ⊕ ¬AwareThatDrug(rina, caffeine)) ¬(IsDependentOn(rina, caffeine) ⊕ Student(rina))
Rina eith doesn't want to be addicted to caffeine or is unaware that caffeine is a drug.
¬WantToBeAddictedTo(rina, caffeine) ⊕ ¬AwareThatDrug(rina, caffeine)
True
1,127
406
All people who regularly drink coffee are dependent on caffeine. People regularly drink coffee, or they don't want to be addicted to caffeine, or both. No one who doesn't want to be addicted to caffeine is unaware that caffeine is a drug. Rina is either a student who is unaware that caffeine is a drug, or she is not a student and is she aware that caffeine is a drug. Rina is either a student who is dependent on caffeine, or she is not a student and not dependent on caffeine.
∀x (DrinkRegularly(x, coffee) → IsDependentOn(x, caffeine)) ∀x (DrinkRegularly(x, coffee) ∨ (¬WantToBeAddictedTo(x, caffeine))) ∀x (¬WantToBeAddictedTo(x, caffeine) → ¬AwareThatDrug(x, caffeine)) ¬(Student(rina) ⊕ ¬AwareThatDrug(rina, caffeine)) ¬(IsDependentOn(rina, caffeine) ⊕ Student(rina))
Rina either regularly drinks coffee or is unaware that caffeine is a drug.
DrinkRegularly(rina, coffee) ⊕ IsUnawareThatCaffeineIsADrug(rina)
False
1,128
406
All people who regularly drink coffee are dependent on caffeine. People regularly drink coffee, or they don't want to be addicted to caffeine, or both. No one who doesn't want to be addicted to caffeine is unaware that caffeine is a drug. Rina is either a student who is unaware that caffeine is a drug, or she is not a student and is she aware that caffeine is a drug. Rina is either a student who is dependent on caffeine, or she is not a student and not dependent on caffeine.
∀x (DrinkRegularly(x, coffee) → IsDependentOn(x, caffeine)) ∀x (DrinkRegularly(x, coffee) ∨ (¬WantToBeAddictedTo(x, caffeine))) ∀x (¬WantToBeAddictedTo(x, caffeine) → ¬AwareThatDrug(x, caffeine)) ¬(Student(rina) ⊕ ¬AwareThatDrug(rina, caffeine)) ¬(IsDependentOn(rina, caffeine) ⊕ Student(rina))
If Rina either doesn't want to be addicted to caffeine and is unaware that caffeine is a drug, or neither doesn't want to be addicted to caffeine nor is unaware that caffeine is a drug, then Rina doesn't want to be addicted to caffeine and regularly drinks coffee.
(DoNotWantToBeAddictedToCaffeine(rina) ⊕ ¬AwareThatDrug(rina, caffeine)) → ¬(¬WantToBeAddictedTo(rina, caffeine) ∧ DrinkRegularly(rina, coffee))
True
1,129
8
Miroslav Venhoda was a Czech choral conductor who specialized in the performance of Renaissance and Baroque music. Any choral conductor is a musician. Some musicians love music. Miroslav Venhoda published a book in 1946 called Method of Studying Gregorian Chant.
Czech(miroslav) ∧ ChoralConductor(miroslav) ∧ SpecializeInPerformanceOf(miroslav, renaissanceMusic) ∧ SpecializeInPerformanceOf(miroslav, baroqueMusic) ∀x (ChoralConductor(x) → Musician(x)) ∃x ∃y ((Musician(x) → Love(x, music)) ∧ (¬(x=y) ∧ Musician(y) → Love(y, music))) PublishedBook(miroslav, methodOfStudyingGregorianChant, yr1946)
Miroslav Venhoda loved music.
Love(miroslav, music)
Uncertain
20
8
Miroslav Venhoda was a Czech choral conductor who specialized in the performance of Renaissance and Baroque music. Any choral conductor is a musician. Some musicians love music. Miroslav Venhoda published a book in 1946 called Method of Studying Gregorian Chant.
Czech(miroslav) ∧ ChoralConductor(miroslav) ∧ SpecializeInPerformanceOf(miroslav, renaissanceMusic) ∧ SpecializeInPerformanceOf(miroslav, baroqueMusic) ∀x (ChoralConductor(x) → Musician(x)) ∃x ∃y ((Musician(x) → Love(x, music)) ∧ (¬(x=y) ∧ Musician(y) → Love(y, music))) PublishedBook(miroslav, methodOfStudyingGregorianChant, yr1946)
A Czech published a book in 1946.
∃x ∃y (Czech(x) ∧ PublishedBook(x, y, year1946))
True
21
8
Miroslav Venhoda was a Czech choral conductor who specialized in the performance of Renaissance and Baroque music. Any choral conductor is a musician. Some musicians love music. Miroslav Venhoda published a book in 1946 called Method of Studying Gregorian Chant.
Czech(miroslav) ∧ ChoralConductor(miroslav) ∧ SpecializeInPerformanceOf(miroslav, renaissanceMusic) ∧ SpecializeInPerformanceOf(miroslav, baroqueMusic) ∀x (ChoralConductor(x) → Musician(x)) ∃x ∃y ((Musician(x) → Love(x, music)) ∧ (¬(x=y) ∧ Musician(y) → Love(y, music))) PublishedBook(miroslav, methodOfStudyingGregorianChant, yr1946)
No choral conductor specialized in the performance of Renaissance.
∀x (ChoralConductor(x) → ¬SpecializeInPerformanceOf(x, renaissanceMusic))
False
22
463
All eels are fish. No fish are plants. Everything displayed in the collection is either a plant or an animal. All multicellular animals are not bacteria. All animals displayed in the collection are multicellular. A sea eel is displayed in the collection. The sea eel is an eel or an animal or not a plant.
∀x (Eel(x) → Fish(x)) ∀x (Fish(x) → ¬Plant(x)) ∀x (DisplayedIn(x, collection) → Plant(x) ⊕ Animal(x)) ∀x (Multicellular(x) → ¬Bacteria(x)) ∀x (DisplayedIn(x, collection) ∧ Animal(x) → Multicellular(x)) DisplayedIn(seaEel, collection) Eel(seaEel) ∨ Animal(seaEel) ∨ ¬Plant(seaEel)
The sea eel is an eel.
Eel(seaEel)
Uncertain
1,336
463
All eels are fish. No fish are plants. Everything displayed in the collection is either a plant or an animal. All multicellular animals are not bacteria. All animals displayed in the collection are multicellular. A sea eel is displayed in the collection. The sea eel is an eel or an animal or not a plant.
∀x (Eel(x) → Fish(x)) ∀x (Fish(x) → ¬Plant(x)) ∀x (DisplayedIn(x, collection) → Plant(x) ⊕ Animal(x)) ∀x (Multicellular(x) → ¬Bacteria(x)) ∀x (DisplayedIn(x, collection) ∧ Animal(x) → Multicellular(x)) DisplayedIn(seaEel, collection) Eel(seaEel) ∨ Animal(seaEel) ∨ ¬Plant(seaEel)
The sea eel is bacteria.
Bacteria(seaEel)
False
1,337
463
All eels are fish. No fish are plants. Everything displayed in the collection is either a plant or an animal. All multicellular animals are not bacteria. All animals displayed in the collection are multicellular. A sea eel is displayed in the collection. The sea eel is an eel or an animal or not a plant.
∀x (Eel(x) → Fish(x)) ∀x (Fish(x) → ¬Plant(x)) ∀x (DisplayedIn(x, collection) → Plant(x) ⊕ Animal(x)) ∀x (Multicellular(x) → ¬Bacteria(x)) ∀x (DisplayedIn(x, collection) ∧ Animal(x) → Multicellular(x)) DisplayedIn(seaEel, collection) Eel(seaEel) ∨ Animal(seaEel) ∨ ¬Plant(seaEel)
The sea eel is multicellular or is bacteria.
Multicellular(seaEel) ∨ Bacteria(seaEel)
True
1,338
133
The Blake McFall Company Building is a building added to the National Register of Historic Places in 1990. The Emmet Building is a five-story building in Portland, Oregon. The Emmet Building was built in 1915. The Emmet Building is another name for the Blake McFall Company Building. John works at the Emmet Building.
Building(blakeMcFallCompanyBuilding) ∧ AddedToIn(blakeMcFallCompanyBuilding, theNationalRegisterOfHistoricPlaces, year1990) Building(emmetBuilding) ∧ Five-Story(emmetBuilding) ∧ LocatedIn(emmetBuilding, portland) ∧ LocatedIn(portland, oregon)) BuiltIn(emmetBuilding, year1915) emmetBuiling=blakeMcFallCompanyBuilding WorkAt(john, emmetBuilding)
A five-story building is built in 1915.
∃x (Building(x) ∧ Five-Story(x) ∧ ConstructedIn(x, year1915))
True
392
133
The Blake McFall Company Building is a building added to the National Register of Historic Places in 1990. The Emmet Building is a five-story building in Portland, Oregon. The Emmet Building was built in 1915. The Emmet Building is another name for the Blake McFall Company Building. John works at the Emmet Building.
Building(blakeMcFallCompanyBuilding) ∧ AddedToIn(blakeMcFallCompanyBuilding, theNationalRegisterOfHistoricPlaces, year1990) Building(emmetBuilding) ∧ Five-Story(emmetBuilding) ∧ LocatedIn(emmetBuilding, portland) ∧ LocatedIn(portland, oregon)) BuiltIn(emmetBuilding, year1915) emmetBuiling=blakeMcFallCompanyBuilding WorkAt(john, emmetBuilding)
The Blake McFall Company Building is located in Portland, Oregon.
LocatedIn(blakeMcFallCompanyBuilding, portland)
True
393
133
The Blake McFall Company Building is a building added to the National Register of Historic Places in 1990. The Emmet Building is a five-story building in Portland, Oregon. The Emmet Building was built in 1915. The Emmet Building is another name for the Blake McFall Company Building. John works at the Emmet Building.
Building(blakeMcFallCompanyBuilding) ∧ AddedToIn(blakeMcFallCompanyBuilding, theNationalRegisterOfHistoricPlaces, year1990) Building(emmetBuilding) ∧ Five-Story(emmetBuilding) ∧ LocatedIn(emmetBuilding, portland) ∧ LocatedIn(portland, oregon)) BuiltIn(emmetBuilding, year1915) emmetBuiling=blakeMcFallCompanyBuilding WorkAt(john, emmetBuilding)
John started his current job in 1990.
StartCurrentJobIn(john, year1990)
Uncertain
394
226
William Dickinson was a British politician who sat in the House of Commons William Dickinson attended Westminster school for high school and then the University of Edinburgh. The University of Edinburgh is a university located in the United Kingdom. William Dickinson supported the Portland Whigs. People who supported the Portland Whigs did not get a seat in the Parliament.
British(williamDickinson) ∧ Politician(williamDickinson) ∧ SatIn(williamDickinson, houseOfCommons) Attended(williamDickinson, westminsterSchool) ∧ Highschool(westminsterSchool) ∧ Attended(williamDickinson, universityOfEdinburgh) University(universityOfEdinburgh) ∧ LocatedIn(universityOfEdinburgh, unitedKingdom) Supported(williamDickinson, portlandWhigs) ∀x (Supported(x, portlandWhigs) → ¬SatIn(x, parliament))
William Dickinson did not get a seat in Parliament.
SatIn(williamDickinson, parliament)
True
636
226
William Dickinson was a British politician who sat in the House of Commons William Dickinson attended Westminster school for high school and then the University of Edinburgh. The University of Edinburgh is a university located in the United Kingdom. William Dickinson supported the Portland Whigs. People who supported the Portland Whigs did not get a seat in the Parliament.
British(williamDickinson) ∧ Politician(williamDickinson) ∧ SatIn(williamDickinson, houseOfCommons) Attended(williamDickinson, westminsterSchool) ∧ Highschool(westminsterSchool) ∧ Attended(williamDickinson, universityOfEdinburgh) University(universityOfEdinburgh) ∧ LocatedIn(universityOfEdinburgh, unitedKingdom) Supported(williamDickinson, portlandWhigs) ∀x (Supported(x, portlandWhigs) → ¬SatIn(x, parliament))
William Dickinson went to schools located in the United Kingdom for both high school and university.
∃x ∃y (Attended(williamDickinson, x) ∧ Highschool(x) ∧ LocatedIn(x, unitedKingdom) ∧ Attended(williamDickinson, y) ∧ University(y) ∧ LocatedIn(y, unitedKingdom))
Uncertain
637
226
William Dickinson was a British politician who sat in the House of Commons William Dickinson attended Westminster school for high school and then the University of Edinburgh. The University of Edinburgh is a university located in the United Kingdom. William Dickinson supported the Portland Whigs. People who supported the Portland Whigs did not get a seat in the Parliament.
British(williamDickinson) ∧ Politician(williamDickinson) ∧ SatIn(williamDickinson, houseOfCommons) Attended(williamDickinson, westminsterSchool) ∧ Highschool(westminsterSchool) ∧ Attended(williamDickinson, universityOfEdinburgh) University(universityOfEdinburgh) ∧ LocatedIn(universityOfEdinburgh, unitedKingdom) Supported(williamDickinson, portlandWhigs) ∀x (Supported(x, portlandWhigs) → ¬SatIn(x, parliament))
William Dickinson attended university in the United Kingdom.
∃x (Attended(williamDickinson, x) ∧ University(x) ∧ LocatedIn(x, unitedKingdom))
True
638
226
William Dickinson was a British politician who sat in the House of Commons William Dickinson attended Westminster school for high school and then the University of Edinburgh. The University of Edinburgh is a university located in the United Kingdom. William Dickinson supported the Portland Whigs. People who supported the Portland Whigs did not get a seat in the Parliament.
British(williamDickinson) ∧ Politician(williamDickinson) ∧ SatIn(williamDickinson, houseOfCommons) Attended(williamDickinson, westminsterSchool) ∧ Highschool(westminsterSchool) ∧ Attended(williamDickinson, universityOfEdinburgh) University(universityOfEdinburgh) ∧ LocatedIn(universityOfEdinburgh, unitedKingdom) Supported(williamDickinson, portlandWhigs) ∀x (Supported(x, portlandWhigs) → ¬SatIn(x, parliament))
William Dickinson sat in the House of Commons.
SatIn(williamDickinson, houseOfCommons)
True
639
247
LanguageA is a universal language If a universal language exists, then for every two people if they both know the same universal language they can communicate. Katya cannot communicate with Danil. Katya knows LanguageA.
UniversalLanguage(languageA) ∀x ∀y (∃z (¬(x=y) ∧ Know(x, z) ∧ Know(y, z) ∧ UniversalLanguage(z)) → CanCommunicateWith(x, y) ∧ CanCommunicateWith(y, x)) ¬CanCommunicateWith(katya, danil) Know(katya, languageA)
Danil knows LanguageA.
Know(danil, languageA)
False
690
422
All customers in James' family who subscribe to AMC A-List are eligible to watch three movies every week without any additional fees. Some of the customers in James' family go to the cinema every week. Customers in James' family subscribe to AMC A-List or HBO service. Customers in James' family who prefer TV series will not watch TV series in cinemas. All customers in James' family who subscribe to HBO services prefer TV series to movies. Lily is in James' family; she watches TV series in cinemas.
∀x ((Customer(x) ∧ In(x, jameSFamily) ∧ SubscribedTo(x, aMCAList)) → EligibleForThreeFreeMoviesEveryWeekWithoutAdditionalFees(x)) ∃x ∃y (Customer(x) ∧ In(x, jameSFamily) ∧ GoToEveryWeek(x, cinema) ∧ (¬(x=y)) ∧ Customer(y) ∧ In(y, jameSFamily) ∧ GoToEveryWeek(y, cinema)) ∀x (Customer(x) ∧ In(x, jameSFamily) ∧ (SubscribedTo(x, aMCAList) ∨ SubscribedTo(x, hBO))) ∀x ((Customer(x) ∧ In(x, jameSFamily) ∧ Prefer(x, tVSeries)) → (¬WatchIn(x, tV, cinema))) ∀x ((Customer(x) ∧ In(x, jameSFamily) ∧ SubscribedTo(x, hBO)) → Prefer(x, tVSeries)) Customer(lily) ∧ In(lily, jameSFamily ∧ WatchIn(lily, tV, cinema)
Lily goes to cinemas every week.
GoToEveryWeek(lily, cinema)
Uncertain
1,192
422
All customers in James' family who subscribe to AMC A-List are eligible to watch three movies every week without any additional fees. Some of the customers in James' family go to the cinema every week. Customers in James' family subscribe to AMC A-List or HBO service. Customers in James' family who prefer TV series will not watch TV series in cinemas. All customers in James' family who subscribe to HBO services prefer TV series to movies. Lily is in James' family; she watches TV series in cinemas.
∀x ((Customer(x) ∧ In(x, jameSFamily) ∧ SubscribedTo(x, aMCAList)) → EligibleForThreeFreeMoviesEveryWeekWithoutAdditionalFees(x)) ∃x ∃y (Customer(x) ∧ In(x, jameSFamily) ∧ GoToEveryWeek(x, cinema) ∧ (¬(x=y)) ∧ Customer(y) ∧ In(y, jameSFamily) ∧ GoToEveryWeek(y, cinema)) ∀x (Customer(x) ∧ In(x, jameSFamily) ∧ (SubscribedTo(x, aMCAList) ∨ SubscribedTo(x, hBO))) ∀x ((Customer(x) ∧ In(x, jameSFamily) ∧ Prefer(x, tVSeries)) → (¬WatchIn(x, tV, cinema))) ∀x ((Customer(x) ∧ In(x, jameSFamily) ∧ SubscribedTo(x, hBO)) → Prefer(x, tVSeries)) Customer(lily) ∧ In(lily, jameSFamily ∧ WatchIn(lily, tV, cinema)
Lily does not go to cinemas every week.
¬GoToEveryWeek(lily, cinema)
Uncertain
1,193
422
All customers in James' family who subscribe to AMC A-List are eligible to watch three movies every week without any additional fees. Some of the customers in James' family go to the cinema every week. Customers in James' family subscribe to AMC A-List or HBO service. Customers in James' family who prefer TV series will not watch TV series in cinemas. All customers in James' family who subscribe to HBO services prefer TV series to movies. Lily is in James' family; she watches TV series in cinemas.
∀x ((Customer(x) ∧ In(x, jameSFamily) ∧ SubscribedTo(x, aMCAList)) → EligibleForThreeFreeMoviesEveryWeekWithoutAdditionalFees(x)) ∃x ∃y (Customer(x) ∧ In(x, jameSFamily) ∧ GoToEveryWeek(x, cinema) ∧ (¬(x=y)) ∧ Customer(y) ∧ In(y, jameSFamily) ∧ GoToEveryWeek(y, cinema)) ∀x (Customer(x) ∧ In(x, jameSFamily) ∧ (SubscribedTo(x, aMCAList) ∨ SubscribedTo(x, hBO))) ∀x ((Customer(x) ∧ In(x, jameSFamily) ∧ Prefer(x, tVSeries)) → (¬WatchIn(x, tV, cinema))) ∀x ((Customer(x) ∧ In(x, jameSFamily) ∧ SubscribedTo(x, hBO)) → Prefer(x, tVSeries)) Customer(lily) ∧ In(lily, jameSFamily ∧ WatchIn(lily, tV, cinema)
Lily goes to cinemas every week or watches 3 movies every week without any additional fees.
GoToEveryWeek(lily, cinema) ∨ EligibleForThreeFreeMoviesWithoutAdditionalFees(lily)
True
1,194
422
All customers in James' family who subscribe to AMC A-List are eligible to watch three movies every week without any additional fees. Some of the customers in James' family go to the cinema every week. Customers in James' family subscribe to AMC A-List or HBO service. Customers in James' family who prefer TV series will not watch TV series in cinemas. All customers in James' family who subscribe to HBO services prefer TV series to movies. Lily is in James' family; she watches TV series in cinemas.
∀x ((Customer(x) ∧ In(x, jameSFamily) ∧ SubscribedTo(x, aMCAList)) → EligibleForThreeFreeMoviesEveryWeekWithoutAdditionalFees(x)) ∃x ∃y (Customer(x) ∧ In(x, jameSFamily) ∧ GoToEveryWeek(x, cinema) ∧ (¬(x=y)) ∧ Customer(y) ∧ In(y, jameSFamily) ∧ GoToEveryWeek(y, cinema)) ∀x (Customer(x) ∧ In(x, jameSFamily) ∧ (SubscribedTo(x, aMCAList) ∨ SubscribedTo(x, hBO))) ∀x ((Customer(x) ∧ In(x, jameSFamily) ∧ Prefer(x, tVSeries)) → (¬WatchIn(x, tV, cinema))) ∀x ((Customer(x) ∧ In(x, jameSFamily) ∧ SubscribedTo(x, hBO)) → Prefer(x, tVSeries)) Customer(lily) ∧ In(lily, jameSFamily ∧ WatchIn(lily, tV, cinema)
If Lily does not both go to cinemas every week and subscribe to HBO service, then Lily is either available to watch 3 movies every week without any additional fees or she prefers TV more.
(GoToEveryWeek(lily, cinema) ∧ SubscribedTo(lily, hBO)) → (EligibleForThreeFreeMoviesEveryWeek(lily) ⊕ Prefer(lily, tVSeries))
True
1,195
422
All customers in James' family who subscribe to AMC A-List are eligible to watch three movies every week without any additional fees. Some of the customers in James' family go to the cinema every week. Customers in James' family subscribe to AMC A-List or HBO service. Customers in James' family who prefer TV series will not watch TV series in cinemas. All customers in James' family who subscribe to HBO services prefer TV series to movies. Lily is in James' family; she watches TV series in cinemas.
∀x ((Customer(x) ∧ In(x, jameSFamily) ∧ SubscribedTo(x, aMCAList)) → EligibleForThreeFreeMoviesEveryWeekWithoutAdditionalFees(x)) ∃x ∃y (Customer(x) ∧ In(x, jameSFamily) ∧ GoToEveryWeek(x, cinema) ∧ (¬(x=y)) ∧ Customer(y) ∧ In(y, jameSFamily) ∧ GoToEveryWeek(y, cinema)) ∀x (Customer(x) ∧ In(x, jameSFamily) ∧ (SubscribedTo(x, aMCAList) ∨ SubscribedTo(x, hBO))) ∀x ((Customer(x) ∧ In(x, jameSFamily) ∧ Prefer(x, tVSeries)) → (¬WatchIn(x, tV, cinema))) ∀x ((Customer(x) ∧ In(x, jameSFamily) ∧ SubscribedTo(x, hBO)) → Prefer(x, tVSeries)) Customer(lily) ∧ In(lily, jameSFamily ∧ WatchIn(lily, tV, cinema)
If Lily is available to watch 3 movies every week without any additional fees and she watches TV series in cinemas, then she goes to cinemas every week and prefers TV series more.
(EligibleForThreeFreeMoviesEveryWeekWithoutAdditionalFees(lily) ∧ WatchIn(lily, tV, cinema)) → (GoToEveryWeek(lily, cinema) ∧ Prefer(lily, tVSeries))
False
1,196
193
A La Liga soccer team ranks higher than another La Liga soccer team if it receives more points. If there are two La Liga soccer teams and neither has more points than the other, then the team which receives more points from the games between the two teams ranks higher. Real Madrid and Barcelona are both La Liga soccer teams. Real Madrid received more points than Barcelona. Neither Real Madrid nor Barcelona received more points from the games between them.
∀x ∀y (LaLigaSoccerTeam(x) ∧ LaLigaSoccerTeam(y) ∧ MorePoints(x, y) → RankHigherThan(x, y)) ∀x ∀y (LaLigaSoccerTeam(x) ∧ LaLigaSoccerTeam(y) ∧ ¬MorePoints(x, y) ∧ ¬MorePoints(y, x) ∧ MorePointsInGameBetween(x, y) → RankHigherThan(x, y)) LaLigaSoccerTeam(realMadrid) ∧ LaLigaSoccerTeam(barcelona) MorePoints(realMadrid, barcelona) ¬MorePointsInGameBetween(realMadrid, barcelona) ∧ ¬MorePointsInGameBetween(barcelona, realMadrid)
Real Madrid ranks higher than Barcelona.
RankHigherThan(realMadrid, barcelona)
True
550
193
A La Liga soccer team ranks higher than another La Liga soccer team if it receives more points. If there are two La Liga soccer teams and neither has more points than the other, then the team which receives more points from the games between the two teams ranks higher. Real Madrid and Barcelona are both La Liga soccer teams. Real Madrid received more points than Barcelona. Neither Real Madrid nor Barcelona received more points from the games between them.
∀x ∀y (LaLigaSoccerTeam(x) ∧ LaLigaSoccerTeam(y) ∧ MorePoints(x, y) → RankHigherThan(x, y)) ∀x ∀y (LaLigaSoccerTeam(x) ∧ LaLigaSoccerTeam(y) ∧ ¬MorePoints(x, y) ∧ ¬MorePoints(y, x) ∧ MorePointsInGameBetween(x, y) → RankHigherThan(x, y)) LaLigaSoccerTeam(realMadrid) ∧ LaLigaSoccerTeam(barcelona) MorePoints(realMadrid, barcelona) ¬MorePointsInGameBetween(realMadrid, barcelona) ∧ ¬MorePointsInGameBetween(barcelona, realMadrid)
Barcelona ranks higher than Real Madrid.
RankHigherThan(barcelona, realMadrid)
False
551
82
Lawton Park is a neighborhood in Seattle. All citizens of Lawton Park use the zip code 98199. Tom is a citizen of Lawton Park. Daniel uses the zip code 98199.
NeighbourhoodIn(lawtonPark, seattle) ∀x (Residentof(x, lawtonPark) → UseZipCode(x, num98199)) ResidentOf(tom, lawtonPark) UseZipCode(daniel, num98199)
Tom uses the zip code 98199.
UseZipCode(tom, num98199)
True
249
82
Lawton Park is a neighborhood in Seattle. All citizens of Lawton Park use the zip code 98199. Tom is a citizen of Lawton Park. Daniel uses the zip code 98199.
NeighbourhoodIn(lawtonPark, seattle) ∀x (Residentof(x, lawtonPark) → UseZipCode(x, num98199)) ResidentOf(tom, lawtonPark) UseZipCode(daniel, num98199)
Tom doesn't use the zip code 98199.
¬UseZipCode(tom, num98199)
False
250
82
Lawton Park is a neighborhood in Seattle. All citizens of Lawton Park use the zip code 98199. Tom is a citizen of Lawton Park. Daniel uses the zip code 98199.
NeighbourhoodIn(lawtonPark, seattle) ∀x (Residentof(x, lawtonPark) → UseZipCode(x, num98199)) ResidentOf(tom, lawtonPark) UseZipCode(daniel, num98199)
Tom is a citizen of Washington.
ResidentOf(tom, washington)
Uncertain
251
82
Lawton Park is a neighborhood in Seattle. All citizens of Lawton Park use the zip code 98199. Tom is a citizen of Lawton Park. Daniel uses the zip code 98199.
NeighbourhoodIn(lawtonPark, seattle) ∀x (Residentof(x, lawtonPark) → UseZipCode(x, num98199)) ResidentOf(tom, lawtonPark) UseZipCode(daniel, num98199)
Daniel is a citizen of Lawton Park.
ResidentOf(daniel, lawtonPark)
Uncertain
252
86
If a legislator is found guilty of stealing government funds, they will be suspended from office. Tiffany T. Alston was a legislator in Maryland's House of Delegates from 2011 to 2013. Tiffany T. Alston was found guilty of stealing government funds in 2012.
∀x ((Legislator(x) ∧ StealsFunds(x)) → Suspended(x)) Legislator(tiffanyTAlston) StealsFunds(tiffanyTAlston) ∧ StealsFundsInYr(tiffanyTAlston, yr2012)
Tiffany T. Alston was suspended from the Maryland House of Delegates.
Suspended(tiffanyTAlston)
True
261
86
If a legislator is found guilty of stealing government funds, they will be suspended from office. Tiffany T. Alston was a legislator in Maryland's House of Delegates from 2011 to 2013. Tiffany T. Alston was found guilty of stealing government funds in 2012.
∀x ((Legislator(x) ∧ StealsFunds(x)) → Suspended(x)) Legislator(tiffanyTAlston) StealsFunds(tiffanyTAlston) ∧ StealsFundsInYr(tiffanyTAlston, yr2012)
Tiffany T. Alston was not suspended from the Maryland House of Delegates.
¬Suspended(tiffanyTAlston)
False
262
86
If a legislator is found guilty of stealing government funds, they will be suspended from office. Tiffany T. Alston was a legislator in Maryland's House of Delegates from 2011 to 2013. Tiffany T. Alston was found guilty of stealing government funds in 2012.
∀x ((Legislator(x) ∧ StealsFunds(x)) → Suspended(x)) Legislator(tiffanyTAlston) StealsFunds(tiffanyTAlston) ∧ StealsFundsInYr(tiffanyTAlston, yr2012)
Tiffany T. Alston went to prison for stealing government funds.
Prison(tiffanyTAlston)
Uncertain
263
171
Some fish stings people. Stonefish is a fish. Stonefish stings when stepped on. If a stonefish stings someone and they are not treated, it can cause death to them. To treat stonefish stings, apply heat to the affected area or use an antivenom.
∃x ∃y (Fish(x) → Sting(x,y)) Fish(stonefish) ∀x (SteppedOnBy(stonefish, x) → Sting(stonefish, x)) ∀x (Sting(stonefish, x) ∧ ¬Treated(x) → CauseDeathTo(stonefish, x)) ∀x (Sting(stonefish, x) ∧ (ApplyHeatTo(x) ∨ UseAntivenomOn(x)) → Treated(x))
If a stonefish stings you and you don’t use an antivenom, it can cause death to you.
∀x (Sting(stonefish, x) ∧ ¬UseAntivenomOn(x) → CauseDeathTo(stonefish, x))
Uncertain
491
171
Some fish stings people. Stonefish is a fish. Stonefish stings when stepped on. If a stonefish stings someone and they are not treated, it can cause death to them. To treat stonefish stings, apply heat to the affected area or use an antivenom.
∃x ∃y (Fish(x) → Sting(x,y)) Fish(stonefish) ∀x (SteppedOnBy(stonefish, x) → Sting(stonefish, x)) ∀x (Sting(stonefish, x) ∧ ¬Treated(x) → CauseDeathTo(stonefish, x)) ∀x (Sting(stonefish, x) ∧ (ApplyHeatTo(x) ∨ UseAntivenomOn(x)) → Treated(x))
Stings of some fish can cause death if not treated.
∃x ∃y (Fish(x) ∧ Sting(x, y) ∧ ¬Treated(y) → CauseDeathTo(x, y))
True
492
171
Some fish stings people. Stonefish is a fish. Stonefish stings when stepped on. If a stonefish stings someone and they are not treated, it can cause death to them. To treat stonefish stings, apply heat to the affected area or use an antivenom.
∃x ∃y (Fish(x) → Sting(x,y)) Fish(stonefish) ∀x (SteppedOnBy(stonefish, x) → Sting(stonefish, x)) ∀x (Sting(stonefish, x) ∧ ¬Treated(x) → CauseDeathTo(stonefish, x)) ∀x (Sting(stonefish, x) ∧ (ApplyHeatTo(x) ∨ UseAntivenomOn(x)) → Treated(x))
If you step on a stonefish and apply heat to the affected area, it can cause death to you.
∀x (SteppedOnBy(stonefish, x) ∧ ApplyHeatTo(x) → CauseDeathTo(stonefish, x))
Uncertain
493
417
Some monitors made by LG have a type-c port. Monitors that have a type-c port were not made before 2010. All monitors in the library are made before 2010. The L-2021 monitor is either used in the library or has a type-c port. The L-2021 monitor is either both produced before 2010 and made by LG, or neither is true.
∃x (Monitor(x) ∧ ProducedBy(x, lG) ∧ Have(x, typeCPort) ∧ (¬(x=y)) ∧ Monitor(y) ∧ ProducedBy(y, lG) ∧ Have(y, typeCPort)) ∀x (Have(x, typeCPort) → ¬ProducedBefore(x, yr2010)) ∀x ((Monitor(x) ∧ In(x, library)) → ProducedBefore(x, yr2010)) Monitor(l-2021) ∧ (In(l-2021, library) ⊕ Have(l-2021, typeCPort)) ¬(ProducedBefore(l-2021, yr2010) ⊕ ProducedBy(l-2021, lG))
The monitor L-2021 is in the library.
In(l-2021, library)
Uncertain
1,173
417
Some monitors made by LG have a type-c port. Monitors that have a type-c port were not made before 2010. All monitors in the library are made before 2010. The L-2021 monitor is either used in the library or has a type-c port. The L-2021 monitor is either both produced before 2010 and made by LG, or neither is true.
∃x (Monitor(x) ∧ ProducedBy(x, lG) ∧ Have(x, typeCPort) ∧ (¬(x=y)) ∧ Monitor(y) ∧ ProducedBy(y, lG) ∧ Have(y, typeCPort)) ∀x (Have(x, typeCPort) → ¬ProducedBefore(x, yr2010)) ∀x ((Monitor(x) ∧ In(x, library)) → ProducedBefore(x, yr2010)) Monitor(l-2021) ∧ (In(l-2021, library) ⊕ Have(l-2021, typeCPort)) ¬(ProducedBefore(l-2021, yr2010) ⊕ ProducedBy(l-2021, lG))
The monitor L-2021 is either in the library or produced by LG.
In(l-2021, library) ⊕ ProducedBy(l-2021, lG)
False
1,174
417
Some monitors made by LG have a type-c port. Monitors that have a type-c port were not made before 2010. All monitors in the library are made before 2010. The L-2021 monitor is either used in the library or has a type-c port. The L-2021 monitor is either both produced before 2010 and made by LG, or neither is true.
∃x (Monitor(x) ∧ ProducedBy(x, lG) ∧ Have(x, typeCPort) ∧ (¬(x=y)) ∧ Monitor(y) ∧ ProducedBy(y, lG) ∧ Have(y, typeCPort)) ∀x (Have(x, typeCPort) → ¬ProducedBefore(x, yr2010)) ∀x ((Monitor(x) ∧ In(x, library)) → ProducedBefore(x, yr2010)) Monitor(l-2021) ∧ (In(l-2021, library) ⊕ Have(l-2021, typeCPort)) ¬(ProducedBefore(l-2021, yr2010) ⊕ ProducedBy(l-2021, lG))
The L-2021 monitor either has a type-c port or is produced by LG.
Have(l-2021, typeCPort) ⊕ ProducedBy(l-2021, lG)
True
1,175
417
Some monitors made by LG have a type-c port. Monitors that have a type-c port were not made before 2010. All monitors in the library are made before 2010. The L-2021 monitor is either used in the library or has a type-c port. The L-2021 monitor is either both produced before 2010 and made by LG, or neither is true.
∃x (Monitor(x) ∧ ProducedBy(x, lG) ∧ Have(x, typeCPort) ∧ (¬(x=y)) ∧ Monitor(y) ∧ ProducedBy(y, lG) ∧ Have(y, typeCPort)) ∀x (Have(x, typeCPort) → ¬ProducedBefore(x, yr2010)) ∀x ((Monitor(x) ∧ In(x, library)) → ProducedBefore(x, yr2010)) Monitor(l-2021) ∧ (In(l-2021, library) ⊕ Have(l-2021, typeCPort)) ¬(ProducedBefore(l-2021, yr2010) ⊕ ProducedBy(l-2021, lG))
If the L-2021 monitor is either in the library and produced by LG, or neither in the library nor produced by LG, then L-2021 neither has a type-c port nor is produced by LG.
¬(In(l-2021, library) ⊕ ProducedBy(l-2021, lG)) → (¬Have(x, typeCPort) ∧ ¬ProducedBy(x, lG))
False
1,176
417
Some monitors made by LG have a type-c port. Monitors that have a type-c port were not made before 2010. All monitors in the library are made before 2010. The L-2021 monitor is either used in the library or has a type-c port. The L-2021 monitor is either both produced before 2010 and made by LG, or neither is true.
∃x (Monitor(x) ∧ ProducedBy(x, lG) ∧ Have(x, typeCPort) ∧ (¬(x=y)) ∧ Monitor(y) ∧ ProducedBy(y, lG) ∧ Have(y, typeCPort)) ∀x (Have(x, typeCPort) → ¬ProducedBefore(x, yr2010)) ∀x ((Monitor(x) ∧ In(x, library)) → ProducedBefore(x, yr2010)) Monitor(l-2021) ∧ (In(l-2021, library) ⊕ Have(l-2021, typeCPort)) ¬(ProducedBefore(l-2021, yr2010) ⊕ ProducedBy(l-2021, lG))
If the monitor L-2021 is either produced by LG and produced before 2010 or neither produced by LG nor produced before 2010, then L-2021 is either in the library or produced by LG.
¬(ProducedBefore(l-2021, year2010) ⊕ ProducedBy(l-2021, lG)) → (In(l-2021, library) ⊕ ProducedBy(l-2021, lG))
False
1,177
377
Everything is either outside the solar system or in the solar system. Nothing outside the solar system has the Sun as its star. Everything in the solar system is gravitationally bound by the Sun. No planets gravitationally bound by the Sun are rogue planets. All orphan planets are rogue planets. If PSO J318.5−22 is not both a rogue planet and a planet gravitationally bound by the Sun, then it is a rogue planet.
∀x (Outside(x, solarSystem) ⊕ In(x, solarSystem)) ∀x (Outside(x, solarSystem) → ¬SunAs(x, star)) ∀x (In(x, solarSystem) → BoundBy(x, sun, gravitationally)) ∀x (Planet(x) ∧ BoundBy(x, sun, gravitationally) → ¬(Planet(x) ∧ Rogue(x))) ∀x (Planet(x) ∧ Orphan(x) → Planet(x) ∧ Rogue(x)) ¬(Planet(pSOJ318.5-22) ∧ Rogue(pSOJ318.5-22) ∧ BoundBy(pSOJ318.5-22, sun, gravitationally)) → (Planet(pSOJ318.5-22) ∧ Rogue(pSOJ318.5-22))
PSO J318.5−22 is an orphan planet.
Planet(pSOJ318.5-22) ∧ Orphan(pSOJ318.5-22)
Uncertain
1,005
377
Everything is either outside the solar system or in the solar system. Nothing outside the solar system has the Sun as its star. Everything in the solar system is gravitationally bound by the Sun. No planets gravitationally bound by the Sun are rogue planets. All orphan planets are rogue planets. If PSO J318.5−22 is not both a rogue planet and a planet gravitationally bound by the Sun, then it is a rogue planet.
∀x (Outside(x, solarSystem) ⊕ In(x, solarSystem)) ∀x (Outside(x, solarSystem) → ¬SunAs(x, star)) ∀x (In(x, solarSystem) → BoundBy(x, sun, gravitationally)) ∀x (Planet(x) ∧ BoundBy(x, sun, gravitationally) → ¬(Planet(x) ∧ Rogue(x))) ∀x (Planet(x) ∧ Orphan(x) → Planet(x) ∧ Rogue(x)) ¬(Planet(pSOJ318.5-22) ∧ Rogue(pSOJ318.5-22) ∧ BoundBy(pSOJ318.5-22, sun, gravitationally)) → (Planet(pSOJ318.5-22) ∧ Rogue(pSOJ318.5-22))
PSO J318.5−22 is an orphan planet or it does not have the Sun as its star, or both.
(Planet(pSOJ318.5-22) ∧ Orphan(pSOJ318.5-22)) ∨ ¬SunAs(pSOJ318.5-22, star)
True
1,006
377
Everything is either outside the solar system or in the solar system. Nothing outside the solar system has the Sun as its star. Everything in the solar system is gravitationally bound by the Sun. No planets gravitationally bound by the Sun are rogue planets. All orphan planets are rogue planets. If PSO J318.5−22 is not both a rogue planet and a planet gravitationally bound by the Sun, then it is a rogue planet.
∀x (Outside(x, solarSystem) ⊕ In(x, solarSystem)) ∀x (Outside(x, solarSystem) → ¬SunAs(x, star)) ∀x (In(x, solarSystem) → BoundBy(x, sun, gravitationally)) ∀x (Planet(x) ∧ BoundBy(x, sun, gravitationally) → ¬(Planet(x) ∧ Rogue(x))) ∀x (Planet(x) ∧ Orphan(x) → Planet(x) ∧ Rogue(x)) ¬(Planet(pSOJ318.5-22) ∧ Rogue(pSOJ318.5-22) ∧ BoundBy(pSOJ318.5-22, sun, gravitationally)) → (Planet(pSOJ318.5-22) ∧ Rogue(pSOJ318.5-22))
If PSO J318.5−22 is an orphan planet or it does not have the Sun as the star, or both, then PSO J318.5−22 neither is an orphan planet nor does it have the Sun as the star.
(Planet(pSOJ318.5-22) ∧ Orphan(pSOJ318.5-22)) ∨ ¬SunAs(pSOJ318.5-22, star) → (¬(Planet(pSOJ318.5-22) ∧ Orphan(pSOJ318.5-22)) ∧ ¬SunAs(pSOJ318.5-22, star))
False
1,007
180
Sam is doing a project. A project is written either in C++ or Python. If Sam does a project written in Python, he will not use a Mac. Sam is using a Mac. If Sam uses a Mac, he will play a song. If a song is not titled "Perfect," Sam will never play it.
∃x (Project(x) ∧ Do(sam, x)) ∀x (Project(x) → (WrittenIn(x, cplusplus) ⊕ WrittenIn(x, python))) ∀x (Project(x) ∧ WrittenIn(x, python) ∧ Do(sam, x) → ¬Use(sam, mac)) Use(sam, mac) ∃x (Use(sam, mac) ∧ Song(x) → Play(sam, x)) ∀x (Song(x) ∧ Play(sam, x) → Titled(x, perfect))
The project Sam is doing is written in C++.
∀x (Project(x) ∧ Do(sam, x) ∧ WrittenIn(x, cplusplus))
True
518
180
Sam is doing a project. A project is written either in C++ or Python. If Sam does a project written in Python, he will not use a Mac. Sam is using a Mac. If Sam uses a Mac, he will play a song. If a song is not titled "Perfect," Sam will never play it.
∃x (Project(x) ∧ Do(sam, x)) ∀x (Project(x) → (WrittenIn(x, cplusplus) ⊕ WrittenIn(x, python))) ∀x (Project(x) ∧ WrittenIn(x, python) ∧ Do(sam, x) → ¬Use(sam, mac)) Use(sam, mac) ∃x (Use(sam, mac) ∧ Song(x) → Play(sam, x)) ∀x (Song(x) ∧ Play(sam, x) → Titled(x, perfect))
The song Sam is playing is titled "Perfect".
∀x (Song(x) ∧ Play(sam, x) ∧ Titled(x, perfect))
Uncertain
519
180
Sam is doing a project. A project is written either in C++ or Python. If Sam does a project written in Python, he will not use a Mac. Sam is using a Mac. If Sam uses a Mac, he will play a song. If a song is not titled "Perfect," Sam will never play it.
∃x (Project(x) ∧ Do(sam, x)) ∀x (Project(x) → (WrittenIn(x, cplusplus) ⊕ WrittenIn(x, python))) ∀x (Project(x) ∧ WrittenIn(x, python) ∧ Do(sam, x) → ¬Use(sam, mac)) Use(sam, mac) ∃x (Use(sam, mac) ∧ Song(x) → Play(sam, x)) ∀x (Song(x) ∧ Play(sam, x) → Titled(x, perfect))
If a song is titled "Perfect", Sam will play it.
∀x (Titled(x, perfect) → Play(sam, x))
Uncertain
520
254
All rabbits have fur Some pets are rabbits.
∀x (Rabbit(x) → Have(x, fur)) ∃x (Pet(x) ∧ Rabbit(x))
Some pets do not have fur.
∃x ∃y (Pet(x) ∧ Pet(y) ∧ ¬Have(x, fur) ∧ ¬Have(y, fur))
Uncertain
698
477
All social media applications containing chat features are software. All social media applications that allow users to send messages to each other have chat features. All social media applications have chat features or video features. All social media applications that have video features allow users to upload videos. All software that is social media applications are computer programs. All social media applications that have high engagement metrics are addictive. If a social media application is addictive, then it is not ideal for preteens. TikTok is a social media application, and it is not ideal for preteens.
∀x (SocialMedia(x) ∧ Application(x) ∧ Contain(x, chatFeature) → Software(x)) ∀x (SocialMedia(x) ∧ Application(x) ∧ AllowToSendTo(x, user, message) → Contain(x, chatFeature)) ∀x (SocialMedia(x) ∧ Application(x) → Contain(x, chatFeature) ∨ Contain(x, videoFeature)) ∀x (SocialMedia(x) ∧ Application(x) ∧ Contain(x, videoFeature) → Allow(x, user, uploadVideo)) ∀x (SocialMedia(x) ∧ Application(x) ∧ Software(x) → ComputerProgram(x)) ∀x (SocialMedia(x) ∧ Application(x) ∧Have(x, highEngagementMetric) → Addictive(x)) ∀x (SocialMedia(x) ∧ Application(x) ∧ Addictive(x) → ¬IdealFor(x, preteen)) SocialMedia(tikTok) ∧ Application(tikTok) ∧ ¬IdealFor(tikTok, preteen)
TikTok is a computer program.
ComputerProgram(tikTok)
True
1,385
477
All social media applications containing chat features are software. All social media applications that allow users to send messages to each other have chat features. All social media applications have chat features or video features. All social media applications that have video features allow users to upload videos. All software that is social media applications are computer programs. All social media applications that have high engagement metrics are addictive. If a social media application is addictive, then it is not ideal for preteens. TikTok is a social media application, and it is not ideal for preteens.
∀x (SocialMedia(x) ∧ Application(x) ∧ Contain(x, chatFeature) → Software(x)) ∀x (SocialMedia(x) ∧ Application(x) ∧ AllowToSendTo(x, user, message) → Contain(x, chatFeature)) ∀x (SocialMedia(x) ∧ Application(x) → Contain(x, chatFeature) ∨ Contain(x, videoFeature)) ∀x (SocialMedia(x) ∧ Application(x) ∧ Contain(x, videoFeature) → Allow(x, user, uploadVideo)) ∀x (SocialMedia(x) ∧ Application(x) ∧ Software(x) → ComputerProgram(x)) ∀x (SocialMedia(x) ∧ Application(x) ∧Have(x, highEngagementMetric) → Addictive(x)) ∀x (SocialMedia(x) ∧ Application(x) ∧ Addictive(x) → ¬IdealFor(x, preteen)) SocialMedia(tikTok) ∧ Application(tikTok) ∧ ¬IdealFor(tikTok, preteen)
TikTok is either ideal for preteens or a computer program.
IdealFor(tikTok, preteen) ⊕ ComputerProgram(tikTok)
True
1,386
477
All social media applications containing chat features are software. All social media applications that allow users to send messages to each other have chat features. All social media applications have chat features or video features. All social media applications that have video features allow users to upload videos. All software that is social media applications are computer programs. All social media applications that have high engagement metrics are addictive. If a social media application is addictive, then it is not ideal for preteens. TikTok is a social media application, and it is not ideal for preteens.
∀x (SocialMedia(x) ∧ Application(x) ∧ Contain(x, chatFeature) → Software(x)) ∀x (SocialMedia(x) ∧ Application(x) ∧ AllowToSendTo(x, user, message) → Contain(x, chatFeature)) ∀x (SocialMedia(x) ∧ Application(x) → Contain(x, chatFeature) ∨ Contain(x, videoFeature)) ∀x (SocialMedia(x) ∧ Application(x) ∧ Contain(x, videoFeature) → Allow(x, user, uploadVideo)) ∀x (SocialMedia(x) ∧ Application(x) ∧ Software(x) → ComputerProgram(x)) ∀x (SocialMedia(x) ∧ Application(x) ∧Have(x, highEngagementMetric) → Addictive(x)) ∀x (SocialMedia(x) ∧ Application(x) ∧ Addictive(x) → ¬IdealFor(x, preteen)) SocialMedia(tikTok) ∧ Application(tikTok) ∧ ¬IdealFor(tikTok, preteen)
TikTok is does not have chat features or it is not a computer program.
¬Contain(tikTok, chatFeature) ∨ ¬ComputerProgram(tikTok))
False
1,387
477
All social media applications containing chat features are software. All social media applications that allow users to send messages to each other have chat features. All social media applications have chat features or video features. All social media applications that have video features allow users to upload videos. All software that is social media applications are computer programs. All social media applications that have high engagement metrics are addictive. If a social media application is addictive, then it is not ideal for preteens. TikTok is a social media application, and it is not ideal for preteens.
∀x (SocialMedia(x) ∧ Application(x) ∧ Contain(x, chatFeature) → Software(x)) ∀x (SocialMedia(x) ∧ Application(x) ∧ AllowToSendTo(x, user, message) → Contain(x, chatFeature)) ∀x (SocialMedia(x) ∧ Application(x) → Contain(x, chatFeature) ∨ Contain(x, videoFeature)) ∀x (SocialMedia(x) ∧ Application(x) ∧ Contain(x, videoFeature) → Allow(x, user, uploadVideo)) ∀x (SocialMedia(x) ∧ Application(x) ∧ Software(x) → ComputerProgram(x)) ∀x (SocialMedia(x) ∧ Application(x) ∧Have(x, highEngagementMetric) → Addictive(x)) ∀x (SocialMedia(x) ∧ Application(x) ∧ Addictive(x) → ¬IdealFor(x, preteen)) SocialMedia(tikTok) ∧ Application(tikTok) ∧ ¬IdealFor(tikTok, preteen)
TikTok either has chat features or is a computer program.
Contain(tikTok, chatFeature) ⊕ ComputerProgram(tikTok))
False
1,388
104
Ordinary is an unincorporated community. Located within Elliot County, Ordinary is on Kentucky Route 32. Ordinary is located northwest of Sandy Hook.
UnincorporatedCommunity(ordinary) LocatedIn(ordinary, elliotCounty) ∧ On(ordinary, kentuckyRoute32) LocatedNorthwestOf(ordinary, sandyHook)
There are no unincorporated communities along Kentucky Route 32.
∀x (On(x, kentuckyRoute32) → ¬UnincorporatedCommunity(x))
False
316
104
Ordinary is an unincorporated community. Located within Elliot County, Ordinary is on Kentucky Route 32. Ordinary is located northwest of Sandy Hook.
UnincorporatedCommunity(ordinary) LocatedIn(ordinary, elliotCounty) ∧ On(ordinary, kentuckyRoute32) LocatedNorthwestOf(ordinary, sandyHook)
There is an unincorporated community located in Elliot County.
∃x (UnincorporatedCommunity(x) ∧ LocatedIn(x, elliotCounty))
True
317
348
All young adults at the event like independence. All college students at the event are young adults. All Yale students at the event are college students. Everyone at the event is a Yale student or a Harvard student. All Harvard students at the event are diligent. Susan is at the event, and if Susan is a Harvard student, then she is a young adult. If Susan is a Yale student, then she does not like independence.
∀x (At(x, event) ∧ YoungAdult(x) → Like(x, independence)) ∀x (At(x, event) ∧ CollegeStudent(x) → YoungAdult(x)) ∀x (At(x, event) ∧ YaleStudent(x) → CollegeStudent(x)) ∀x (At(x, event) → (YaleStudent(x) ⊕ HarvardStudent(x))) ∀x (At(x, event) ∧ HarvardStudent(x) → Diligent(x)) At(susan, event) ∧ (HarvardStudent(susan) → YoungAdult(susan)) YaleStudent(susan) → ¬Like(susan, independence)
Susan is a college student.
CollegeStudent(susan)
Uncertain
921
348
All young adults at the event like independence. All college students at the event are young adults. All Yale students at the event are college students. Everyone at the event is a Yale student or a Harvard student. All Harvard students at the event are diligent. Susan is at the event, and if Susan is a Harvard student, then she is a young adult. If Susan is a Yale student, then she does not like independence.
∀x (At(x, event) ∧ YoungAdult(x) → Like(x, independence)) ∀x (At(x, event) ∧ CollegeStudent(x) → YoungAdult(x)) ∀x (At(x, event) ∧ YaleStudent(x) → CollegeStudent(x)) ∀x (At(x, event) → (YaleStudent(x) ⊕ HarvardStudent(x))) ∀x (At(x, event) ∧ HarvardStudent(x) → Diligent(x)) At(susan, event) ∧ (HarvardStudent(susan) → YoungAdult(susan)) YaleStudent(susan) → ¬Like(susan, independence)
Susan likes independence and is diligent.
Like(susan, independence) ∧ Diligent(susan)
True
922
348
All young adults at the event like independence. All college students at the event are young adults. All Yale students at the event are college students. Everyone at the event is a Yale student or a Harvard student. All Harvard students at the event are diligent. Susan is at the event, and if Susan is a Harvard student, then she is a young adult. If Susan is a Yale student, then she does not like independence.
∀x (At(x, event) ∧ YoungAdult(x) → Like(x, independence)) ∀x (At(x, event) ∧ CollegeStudent(x) → YoungAdult(x)) ∀x (At(x, event) ∧ YaleStudent(x) → CollegeStudent(x)) ∀x (At(x, event) → (YaleStudent(x) ⊕ HarvardStudent(x))) ∀x (At(x, event) ∧ HarvardStudent(x) → Diligent(x)) At(susan, event) ∧ (HarvardStudent(susan) → YoungAdult(susan)) YaleStudent(susan) → ¬Like(susan, independence)
Susan is not both diligent and likes independence.
¬(Like(susan, independence) ∧ Diligent(susan))
False
923
147
Vic DiCara plays guitar and bass. The only style of music Vic DiCara plays is punk music. Vic DiCara played in the band Inside Out.
Play(vicDicara, guitar) ∧ Play(vicDicara, bass) ∀x (Music(vicDicara, x) → ¬(x=punk))) Band(vicDicara, insideOut)
Inside Out was a punk band.
Music(insideOut, punk)
Uncertain
430
147
Vic DiCara plays guitar and bass. The only style of music Vic DiCara plays is punk music. Vic DiCara played in the band Inside Out.
Play(vicDicara, guitar) ∧ Play(vicDicara, bass) ∀x (Music(vicDicara, x) → ¬(x=punk))) Band(vicDicara, insideOut)
A musician from Inside Out plays bass.
∃x (Band(x, insideOut) ∧ Play(x, bass))
True
431
346
All professional athletes spend most of their time on sports. All Olympic gold medal winners are professional athletes. No full-time scientists spend the majority of their time on sports. All Nobel physics laureates are full-time scientists. Amy spends the most time on sports, or Amy is an Olympic gold medal winner. If Amy is not a Nobel physics laureate, then Amy is not an Olympic gold medal winner.
∀x (ProfessionalAthlete(x) → SpendOn(x, mostOfTheirTime, sports)) ∀x (OlympicGoldMedalWinner(x) → ProfessionalAthlete(x)) ∀x (FullTimeScientist(x) → ¬SpendOn(x, mostOfTheirTime, sports)) ∀x (NobelPhysicsLaureate(x) → FullTimeScientist(x)) SpendOn(amy, mostOfTheirTime, sports) ∨ OlympicGoldMedalWinner(amy) ¬NobelPhysicsLaureate(amy) → ¬OlympicGoldMedalWinner(amy)
Amy is a professional athlete.
ProfessionalAthlete(amy)
Uncertain
913
346
All professional athletes spend most of their time on sports. All Olympic gold medal winners are professional athletes. No full-time scientists spend the majority of their time on sports. All Nobel physics laureates are full-time scientists. Amy spends the most time on sports, or Amy is an Olympic gold medal winner. If Amy is not a Nobel physics laureate, then Amy is not an Olympic gold medal winner.
∀x (ProfessionalAthlete(x) → SpendOn(x, mostOfTheirTime, sports)) ∀x (OlympicGoldMedalWinner(x) → ProfessionalAthlete(x)) ∀x (FullTimeScientist(x) → ¬SpendOn(x, mostOfTheirTime, sports)) ∀x (NobelPhysicsLaureate(x) → FullTimeScientist(x)) SpendOn(amy, mostOfTheirTime, sports) ∨ OlympicGoldMedalWinner(amy) ¬NobelPhysicsLaureate(amy) → ¬OlympicGoldMedalWinner(amy)
Amy is neither a full-time scientist nor an Olympic gold medal winner.
¬(FullTimeScientist(amy) ∨ OlympicGoldMedalWinner(amy))
True
914
346
All professional athletes spend most of their time on sports. All Olympic gold medal winners are professional athletes. No full-time scientists spend the majority of their time on sports. All Nobel physics laureates are full-time scientists. Amy spends the most time on sports, or Amy is an Olympic gold medal winner. If Amy is not a Nobel physics laureate, then Amy is not an Olympic gold medal winner.
∀x (ProfessionalAthlete(x) → SpendOn(x, mostOfTheirTime, sports)) ∀x (OlympicGoldMedalWinner(x) → ProfessionalAthlete(x)) ∀x (FullTimeScientist(x) → ¬SpendOn(x, mostOfTheirTime, sports)) ∀x (NobelPhysicsLaureate(x) → FullTimeScientist(x)) SpendOn(amy, mostOfTheirTime, sports) ∨ OlympicGoldMedalWinner(amy) ¬NobelPhysicsLaureate(amy) → ¬OlympicGoldMedalWinner(amy)
If Amy is not an Olympic gold medal winner, then Amy is a Nobel physics laureate.
¬OlympicGoldMedalWinner(amy) → NobelPhysicsLaureate(amy)
False
915
409
All red fruits that grow in Ben's yard contain some Vitamin C. All apples that grow in Ben's yard are red fruits. All fruits that grow in Ben's yard and contain some Vitamin C are healthy. No fruits that grow in Ben's yard and are healthy are on a warning list. The cherries grow in Ben's yard. If cherries are not apples and are not healthy, then they are red fruits.
∀x ((GrownIn(x, benSYard) ∧ RedFruit(x)) → Contain(x, vitaminC)) ∀x (GrownIn(x, benSYard) ∧ Is(x, apple) → RedFruit(x)) ∀x ((GrownIn(x, benSYard) ∧ Contain(x, vitaminC)) → healthy(x)) ∀x ((GrownIn(x, benSYard) ∧ Healthy(x)) → ¬On(x, warningList)) GrownIn(cherry, benSYard) ¬(Healthy(cherry) ∧ Is(cherry, apple)) → RedFruit(cherry)
The cherries are apples.
Is(cherry, apple)
False
1,142
409
All red fruits that grow in Ben's yard contain some Vitamin C. All apples that grow in Ben's yard are red fruits. All fruits that grow in Ben's yard and contain some Vitamin C are healthy. No fruits that grow in Ben's yard and are healthy are on a warning list. The cherries grow in Ben's yard. If cherries are not apples and are not healthy, then they are red fruits.
∀x ((GrownIn(x, benSYard) ∧ RedFruit(x)) → Contain(x, vitaminC)) ∀x (GrownIn(x, benSYard) ∧ Is(x, apple) → RedFruit(x)) ∀x ((GrownIn(x, benSYard) ∧ Contain(x, vitaminC)) → healthy(x)) ∀x ((GrownIn(x, benSYard) ∧ Healthy(x)) → ¬On(x, warningList)) GrownIn(cherry, benSYard) ¬(Healthy(cherry) ∧ Is(cherry, apple)) → RedFruit(cherry)
The cherries either contain some amount of vitamin C or are on a warning list.
Contain(cherry, vitaminC) ⊕ On(cherry, warningList)
True
1,143
409
All red fruits that grow in Ben's yard contain some Vitamin C. All apples that grow in Ben's yard are red fruits. All fruits that grow in Ben's yard and contain some Vitamin C are healthy. No fruits that grow in Ben's yard and are healthy are on a warning list. The cherries grow in Ben's yard. If cherries are not apples and are not healthy, then they are red fruits.
∀x ((GrownIn(x, benSYard) ∧ RedFruit(x)) → Contain(x, vitaminC)) ∀x (GrownIn(x, benSYard) ∧ Is(x, apple) → RedFruit(x)) ∀x ((GrownIn(x, benSYard) ∧ Contain(x, vitaminC)) → healthy(x)) ∀x ((GrownIn(x, benSYard) ∧ Healthy(x)) → ¬On(x, warningList)) GrownIn(cherry, benSYard) ¬(Healthy(cherry) ∧ Is(cherry, apple)) → RedFruit(cherry)
The cherries are either on a warning list or are red.
On(cherry, warningList) ⊕ RedFruit(cherry)
True
1,144
409
All red fruits that grow in Ben's yard contain some Vitamin C. All apples that grow in Ben's yard are red fruits. All fruits that grow in Ben's yard and contain some Vitamin C are healthy. No fruits that grow in Ben's yard and are healthy are on a warning list. The cherries grow in Ben's yard. If cherries are not apples and are not healthy, then they are red fruits.
∀x ((GrownIn(x, benSYard) ∧ RedFruit(x)) → Contain(x, vitaminC)) ∀x (GrownIn(x, benSYard) ∧ Is(x, apple) → RedFruit(x)) ∀x ((GrownIn(x, benSYard) ∧ Contain(x, vitaminC)) → healthy(x)) ∀x ((GrownIn(x, benSYard) ∧ Healthy(x)) → ¬On(x, warningList)) GrownIn(cherry, benSYard) ¬(Healthy(cherry) ∧ Is(cherry, apple)) → RedFruit(cherry)
If the cherries are either healthy or are on a warning list, then they are not red.
BeneficialTo(cherry, people) ⊕ On(cherry, warningList))) → ¬RedFruit(cherry)
False
1,145
409
All red fruits that grow in Ben's yard contain some Vitamin C. All apples that grow in Ben's yard are red fruits. All fruits that grow in Ben's yard and contain some Vitamin C are healthy. No fruits that grow in Ben's yard and are healthy are on a warning list. The cherries grow in Ben's yard. If cherries are not apples and are not healthy, then they are red fruits.
∀x ((GrownIn(x, benSYard) ∧ RedFruit(x)) → Contain(x, vitaminC)) ∀x (GrownIn(x, benSYard) ∧ Is(x, apple) → RedFruit(x)) ∀x ((GrownIn(x, benSYard) ∧ Contain(x, vitaminC)) → healthy(x)) ∀x ((GrownIn(x, benSYard) ∧ Healthy(x)) → ¬On(x, warningList)) GrownIn(cherry, benSYard) ¬(Healthy(cherry) ∧ Is(cherry, apple)) → RedFruit(cherry)
If the cherries are either on a warning list or are red, then they are not healthy and do not contain any amount of vitamin C.
On(cherry, warningList) ⊕ RedFruit(cherry)) → ¬(BeneficialTo(cherry, people) ∧ Contain(cherry, vitaminC)
False
1,146
425
Everyone working at Meta has a high income. A person with a high income will not take a bus to their destination. People will either take a bus or drive to their destination. Everyone who has a car will choose to drive to their destination. No students drive to their destination. James has a car or works at Meta.
∀x (WorkAt(x, meta) → HighIncome(x)) ∀x (HighIncome(x) → ¬MeansToDestination(x, bus)) ∀x (MeansToDestination(x, bus) ⊕ MeansToDestination(x, drive)) ∀x (HaveCar(x) → MeansToDestination(x, drive)) ∀x (Student(x) → ¬ MeansToDestination(x, drive)) HaveCar(james) ∨ WorkAt(james, meta)
James has a high income.
HighIncome(james)
Uncertain
1,202
425
Everyone working at Meta has a high income. A person with a high income will not take a bus to their destination. People will either take a bus or drive to their destination. Everyone who has a car will choose to drive to their destination. No students drive to their destination. James has a car or works at Meta.
∀x (WorkAt(x, meta) → HighIncome(x)) ∀x (HighIncome(x) → ¬MeansToDestination(x, bus)) ∀x (MeansToDestination(x, bus) ⊕ MeansToDestination(x, drive)) ∀x (HaveCar(x) → MeansToDestination(x, drive)) ∀x (Student(x) → ¬ MeansToDestination(x, drive)) HaveCar(james) ∨ WorkAt(james, meta)
James does not have a high income.
¬HighIncome(james)
Uncertain
1,203
425
Everyone working at Meta has a high income. A person with a high income will not take a bus to their destination. People will either take a bus or drive to their destination. Everyone who has a car will choose to drive to their destination. No students drive to their destination. James has a car or works at Meta.
∀x (WorkAt(x, meta) → HighIncome(x)) ∀x (HighIncome(x) → ¬MeansToDestination(x, bus)) ∀x (MeansToDestination(x, bus) ⊕ MeansToDestination(x, drive)) ∀x (HaveCar(x) → MeansToDestination(x, drive)) ∀x (Student(x) → ¬ MeansToDestination(x, drive)) HaveCar(james) ∨ WorkAt(james, meta)
James is a student.
Student(james)
False
1,204
425
Everyone working at Meta has a high income. A person with a high income will not take a bus to their destination. People will either take a bus or drive to their destination. Everyone who has a car will choose to drive to their destination. No students drive to their destination. James has a car or works at Meta.
∀x (WorkAt(x, meta) → HighIncome(x)) ∀x (HighIncome(x) → ¬MeansToDestination(x, bus)) ∀x (MeansToDestination(x, bus) ⊕ MeansToDestination(x, drive)) ∀x (HaveCar(x) → MeansToDestination(x, drive)) ∀x (Student(x) → ¬ MeansToDestination(x, drive)) HaveCar(james) ∨ WorkAt(james, meta)
James drives to his destination or he is a student.
MeansToDestination(x, drive) ∨ Student(james)
True
1,205
425
Everyone working at Meta has a high income. A person with a high income will not take a bus to their destination. People will either take a bus or drive to their destination. Everyone who has a car will choose to drive to their destination. No students drive to their destination. James has a car or works at Meta.
∀x (WorkAt(x, meta) → HighIncome(x)) ∀x (HighIncome(x) → ¬MeansToDestination(x, bus)) ∀x (MeansToDestination(x, bus) ⊕ MeansToDestination(x, drive)) ∀x (HaveCar(x) → MeansToDestination(x, drive)) ∀x (Student(x) → ¬ MeansToDestination(x, drive)) HaveCar(james) ∨ WorkAt(james, meta)
James either drives to their destination or is a student.
MeansToDestination(x, drive) ⊕ Student(james)
True
1,206
425
Everyone working at Meta has a high income. A person with a high income will not take a bus to their destination. People will either take a bus or drive to their destination. Everyone who has a car will choose to drive to their destination. No students drive to their destination. James has a car or works at Meta.
∀x (WorkAt(x, meta) → HighIncome(x)) ∀x (HighIncome(x) → ¬MeansToDestination(x, bus)) ∀x (MeansToDestination(x, bus) ⊕ MeansToDestination(x, drive)) ∀x (HaveCar(x) → MeansToDestination(x, drive)) ∀x (Student(x) → ¬ MeansToDestination(x, drive)) HaveCar(james) ∨ WorkAt(james, meta)
If James either drives to his destination or is a student, then he has a high income and is a student.
(MeansToDestination(x, drive) ⊕ Student(james)) → (HighIncome(james) ∧ Student(james))
False
1,207
423
Everyone at the business conference is either an investor or an entrepreneur. None of those at the business conference who enjoy the opportunity of starting a business prefer a planned economy. All entrepreneurs at the business conference enjoy the opportunity of starting a business. Everyone at the business conference who enjoys state ownership of means of production prefers a planned economy. Everyone at the business conference who is an ardent communist prefers state ownership of the means of production. Ho is at the business conference and prefers state ownership of the means of production.
∀x (At(x, businessConference) → (Investor(x) ⊕ Entrepreneur(x))) ∀x ((At(x, businessConference) ∧ Enjoy(x, opportunityOfStartingOwnBusiness)) → ¬Prefer(x, plannedEconomy)) ∀x ((At(x, businessConference) ∧ Entrepreneur(x)) → Enjoy(x, opportunityOfStartingOwnBusiness)) ∀x ((At(x, businessConference) ∧ Enjoy(x, stateOwnershipOfMeansOfProduction)) → Prefer(x, plannedEconomy)) ∀x ((At(x, businessConference) ∧ ArdentCommunist(x)) → Prefer(x, stateOwnershipOfMeansOfProduction)) At(ho, businessConference) ∧ Prefer(ho, stateOwnershipOfMeansOfProduction)
Ho is not an ardent communist.
¬ArdentCommunist(ho)
Uncertain
1,197
423
Everyone at the business conference is either an investor or an entrepreneur. None of those at the business conference who enjoy the opportunity of starting a business prefer a planned economy. All entrepreneurs at the business conference enjoy the opportunity of starting a business. Everyone at the business conference who enjoys state ownership of means of production prefers a planned economy. Everyone at the business conference who is an ardent communist prefers state ownership of the means of production. Ho is at the business conference and prefers state ownership of the means of production.
∀x (At(x, businessConference) → (Investor(x) ⊕ Entrepreneur(x))) ∀x ((At(x, businessConference) ∧ Enjoy(x, opportunityOfStartingOwnBusiness)) → ¬Prefer(x, plannedEconomy)) ∀x ((At(x, businessConference) ∧ Entrepreneur(x)) → Enjoy(x, opportunityOfStartingOwnBusiness)) ∀x ((At(x, businessConference) ∧ Enjoy(x, stateOwnershipOfMeansOfProduction)) → Prefer(x, plannedEconomy)) ∀x ((At(x, businessConference) ∧ ArdentCommunist(x)) → Prefer(x, stateOwnershipOfMeansOfProduction)) At(ho, businessConference) ∧ Prefer(ho, stateOwnershipOfMeansOfProduction)
Ho is an investor or is not an ardent communist.
Investor(ho) ∨ (¬ArdentCommunist(ho))
True
1,198
264
No television stars are certified public accountants. All certified public accountants have good business sense.
∀x (TelevisionStar(x) → ¬CertifiedPublicAccoutant(x)) ∀x (CertifiedPublicAccoutant(x) → Have(x, goodBusinessSense))
All television stars have good business sense.
∀x (TelevisionStar(x) → Have(x, goodBusinessSense))
Uncertain
708
416
Some students in the class who are good at math are also good at chemistry. All students in the class who are good at chemistry enjoy conducting experiments. All students in the class that enjoy conducting experiments are good at planning. None of the students who are good at planning failed the class. James is a student in the class; he is either good at chemistry and failed the class, or bad at chemistry and passed the class.
∃x ∃y (StudentInTheClass(x) ∧ GoodAt(x, math) ∧ GoodAt(x, chemistry) ∧ (¬(x=y)) ∧ StudentInTheClass(y) ∧ GoodAt(y, math) ∧ GoodAt(y, chemistry)) ∀x ((StudentInTheClass(x) ∧ GoodAt(x, chemistry)) → Enjoy(x, conductingExperiment)) ∀x ((StudentInTheClass(x) ∧ Enjoy(x, conductingExperiment)) → GoodAt(x, planning)) ∀x ((StudentInTheClass(x) ∧ GoodAt(x, planning)) → ¬Failed(x, theClass)) StudentInTheClass(james) ∧ (¬(GoodAt(james, chemistry) ⊕ Failed(james, theClass)))
James is good at planning.
GoodAt(james, planning)
Uncertain
1,169
416
Some students in the class who are good at math are also good at chemistry. All students in the class who are good at chemistry enjoy conducting experiments. All students in the class that enjoy conducting experiments are good at planning. None of the students who are good at planning failed the class. James is a student in the class; he is either good at chemistry and failed the class, or bad at chemistry and passed the class.
∃x ∃y (StudentInTheClass(x) ∧ GoodAt(x, math) ∧ GoodAt(x, chemistry) ∧ (¬(x=y)) ∧ StudentInTheClass(y) ∧ GoodAt(y, math) ∧ GoodAt(y, chemistry)) ∀x ((StudentInTheClass(x) ∧ GoodAt(x, chemistry)) → Enjoy(x, conductingExperiment)) ∀x ((StudentInTheClass(x) ∧ Enjoy(x, conductingExperiment)) → GoodAt(x, planning)) ∀x ((StudentInTheClass(x) ∧ GoodAt(x, planning)) → ¬Failed(x, theClass)) StudentInTheClass(james) ∧ (¬(GoodAt(james, chemistry) ⊕ Failed(james, theClass)))
James is good at math and chemistry.
GoodAt(james, chemistry) ∧ GoodAt(james, math)
False
1,170
416
Some students in the class who are good at math are also good at chemistry. All students in the class who are good at chemistry enjoy conducting experiments. All students in the class that enjoy conducting experiments are good at planning. None of the students who are good at planning failed the class. James is a student in the class; he is either good at chemistry and failed the class, or bad at chemistry and passed the class.
∃x ∃y (StudentInTheClass(x) ∧ GoodAt(x, math) ∧ GoodAt(x, chemistry) ∧ (¬(x=y)) ∧ StudentInTheClass(y) ∧ GoodAt(y, math) ∧ GoodAt(y, chemistry)) ∀x ((StudentInTheClass(x) ∧ GoodAt(x, chemistry)) → Enjoy(x, conductingExperiment)) ∀x ((StudentInTheClass(x) ∧ Enjoy(x, conductingExperiment)) → GoodAt(x, planning)) ∀x ((StudentInTheClass(x) ∧ GoodAt(x, planning)) → ¬Failed(x, theClass)) StudentInTheClass(james) ∧ (¬(GoodAt(james, chemistry) ⊕ Failed(james, theClass)))
James failed the class and is good at math.
Failed(james, james) ∧ GoodAt(james, math)
False
1,171
416
Some students in the class who are good at math are also good at chemistry. All students in the class who are good at chemistry enjoy conducting experiments. All students in the class that enjoy conducting experiments are good at planning. None of the students who are good at planning failed the class. James is a student in the class; he is either good at chemistry and failed the class, or bad at chemistry and passed the class.
∃x ∃y (StudentInTheClass(x) ∧ GoodAt(x, math) ∧ GoodAt(x, chemistry) ∧ (¬(x=y)) ∧ StudentInTheClass(y) ∧ GoodAt(y, math) ∧ GoodAt(y, chemistry)) ∀x ((StudentInTheClass(x) ∧ GoodAt(x, chemistry)) → Enjoy(x, conductingExperiment)) ∀x ((StudentInTheClass(x) ∧ Enjoy(x, conductingExperiment)) → GoodAt(x, planning)) ∀x ((StudentInTheClass(x) ∧ GoodAt(x, planning)) → ¬Failed(x, theClass)) StudentInTheClass(james) ∧ (¬(GoodAt(james, chemistry) ⊕ Failed(james, theClass)))
If James is good at Chemistry or failed the class, then James is either good at planning or good at math.
(GoodAt(james, chemistry) ∨ Failed(james, theClass)) → (GoodAt(james, planning) ⊕ GoodAt(james, math))
True
1,172
24
If a Leetcode problem is at the easy level, then its AC rate is lower than 20 percent. All Leetcode problems that are recommended to novices are easy. A Leetode problem is either easy or hard. Leetcode problems that are starred by more than one thousand users are hard. 2Sum is recommended to novices. 4Sum is starred by more than 1,000 users.
∀x (Easy(x) → ∃y (LessThan(y, percent20) ∧ ACRate(x,y))) ∀x (Recommended(x) → Easy(x)) ∀x (Easy(x) ⊕ Hard(x)) ∀x (Starred(x)) → Hard(x)) Recommended(twosum) Starred(foursum)
2Sum is a Leetcode problem at the easy level.
Easy(twosum)
True
69
24
If a Leetcode problem is at the easy level, then its AC rate is lower than 20 percent. All Leetcode problems that are recommended to novices are easy. A Leetode problem is either easy or hard. Leetcode problems that are starred by more than one thousand users are hard. 2Sum is recommended to novices. 4Sum is starred by more than 1,000 users.
∀x (Easy(x) → ∃y (LessThan(y, percent20) ∧ ACRate(x,y))) ∀x (Recommended(x) → Easy(x)) ∀x (Easy(x) ⊕ Hard(x)) ∀x (Starred(x)) → Hard(x)) Recommended(twosum) Starred(foursum)
4Sum is a Leetcode problem recommended to the novice.
Recommended(foursum)
False
70
24
If a Leetcode problem is at the easy level, then its AC rate is lower than 20 percent. All Leetcode problems that are recommended to novices are easy. A Leetode problem is either easy or hard. Leetcode problems that are starred by more than one thousand users are hard. 2Sum is recommended to novices. 4Sum is starred by more than 1,000 users.
∀x (Easy(x) → ∃y (LessThan(y, percent20) ∧ ACRate(x,y))) ∀x (Recommended(x) → Easy(x)) ∀x (Easy(x) ⊕ Hard(x)) ∀x (Starred(x)) → Hard(x)) Recommended(twosum) Starred(foursum)
2Sum has an AC rate higher than 20 percent.
∃y(GreaterThan(y, percent20) ∧ ACRate(2Sum,y))
False
71
244
Everyone who rents a car spends money. Whenever Sarah goes to Vermont, Sarah drives there. Someone who does not own a car to drive somewhere must either borrow a car or rent a car. Sarah doesn’t own a car. Sarah never borrows a car to go camping. Sarah is going to go camping in Vermont. To go camping somewhere, you must go to that place.
∀x (Rent(x, car) → Spend(x, money)) GoTo(sarah, vermont) → DriveTo(sarah, vermont) ∀x ∀y (¬Own(x, car) ∧ DriveTo(x, y) → Borrow(x, car) ⊕ Rent(x, car)) ¬Own(sarah, car) ∀x (Camping(sarah, x) → ¬(Borrow(sarah, car))) Camping(sarah, vermont) ∀x ∀y (Camping(x, y) → GoTo(x, y))
Sarah will spend money this weekend.
Spend(sarah, money)
True
687
378
All people who attend weddings are getting married or know the people who are getting married. No preteens or young children are getting married or know the people who are getting married. People who enjoy celebrating life milestone events with other people attend weddings. People who are fond of large group functions enjoy celebrating life milestone events with other people. All people who are outgoing and spirited are fond of large group functions. If Carol is not both a pre-teen or young child and attends a wedding, then Carol is not getting married or knows the people who are getting married.
∀x (Attend(x, wedding) → GettingMarried(x) ∨ (∃y (Know(x, y) ∧ GettingMarried(y))) ∀x (PreTeen(x) ∨ YoungChild(x) → ¬(GettingMarried(x) ⊕ (∃y (Know(x, y) ∧ GettingMarried(y))))) ∀x (∃y ∃z (¬(x=y) ∧ ¬(x=z) ∧ ¬(y=z) ∧ Enjoy(x, celebratingLifeMileStoneEvent, y) ∧ Enjoy(x, celebratingLifeStoneEvent, z)) → Attend(x, wedding)) ∀x (FondOf(x, largeGroupFunction) → ∃y ∃z (¬(x=y) ∧ ¬(x=z) ∧ ¬(y=z) ∧ Enjoy(x, celebratingLifeMileStoneEventWith, y) ∧ Enjoy(x, celebratingLifeStoneEvent, z))) ∀x (Outgoing(x) ∧ Sprited(x) → FondOf(x, largeGroupFunction)) ¬((PreTeen(carol) ∨ YoungChildren(carol)) ∧ Attend(carol, wedding)) → ¬(GettingMarried(carol) ∨ (∃y (Know(carol, y) ∧ GettingMarried(y))))
Carol is outgoing and very spirited.
Outgoing(carol) ∧ Sprited(carol)
False
1,008
378
All people who attend weddings are getting married or know the people who are getting married. No preteens or young children are getting married or know the people who are getting married. People who enjoy celebrating life milestone events with other people attend weddings. People who are fond of large group functions enjoy celebrating life milestone events with other people. All people who are outgoing and spirited are fond of large group functions. If Carol is not both a pre-teen or young child and attends a wedding, then Carol is not getting married or knows the people who are getting married.
∀x (Attend(x, wedding) → GettingMarried(x) ∨ (∃y (Know(x, y) ∧ GettingMarried(y))) ∀x (PreTeen(x) ∨ YoungChild(x) → ¬(GettingMarried(x) ⊕ (∃y (Know(x, y) ∧ GettingMarried(y))))) ∀x (∃y ∃z (¬(x=y) ∧ ¬(x=z) ∧ ¬(y=z) ∧ Enjoy(x, celebratingLifeMileStoneEvent, y) ∧ Enjoy(x, celebratingLifeStoneEvent, z)) → Attend(x, wedding)) ∀x (FondOf(x, largeGroupFunction) → ∃y ∃z (¬(x=y) ∧ ¬(x=z) ∧ ¬(y=z) ∧ Enjoy(x, celebratingLifeMileStoneEventWith, y) ∧ Enjoy(x, celebratingLifeStoneEvent, z))) ∀x (Outgoing(x) ∧ Sprited(x) → FondOf(x, largeGroupFunction)) ¬((PreTeen(carol) ∨ YoungChildren(carol)) ∧ Attend(carol, wedding)) → ¬(GettingMarried(carol) ∨ (∃y (Know(carol, y) ∧ GettingMarried(y))))
Carol is a preteen or a young child.
PreTeen(carol) ∨ YoungChild(carol)
Uncertain
1,009
378
All people who attend weddings are getting married or know the people who are getting married. No preteens or young children are getting married or know the people who are getting married. People who enjoy celebrating life milestone events with other people attend weddings. People who are fond of large group functions enjoy celebrating life milestone events with other people. All people who are outgoing and spirited are fond of large group functions. If Carol is not both a pre-teen or young child and attends a wedding, then Carol is not getting married or knows the people who are getting married.
∀x (Attend(x, wedding) → GettingMarried(x) ∨ (∃y (Know(x, y) ∧ GettingMarried(y))) ∀x (PreTeen(x) ∨ YoungChild(x) → ¬(GettingMarried(x) ⊕ (∃y (Know(x, y) ∧ GettingMarried(y))))) ∀x (∃y ∃z (¬(x=y) ∧ ¬(x=z) ∧ ¬(y=z) ∧ Enjoy(x, celebratingLifeMileStoneEvent, y) ∧ Enjoy(x, celebratingLifeStoneEvent, z)) → Attend(x, wedding)) ∀x (FondOf(x, largeGroupFunction) → ∃y ∃z (¬(x=y) ∧ ¬(x=z) ∧ ¬(y=z) ∧ Enjoy(x, celebratingLifeMileStoneEventWith, y) ∧ Enjoy(x, celebratingLifeStoneEvent, z))) ∀x (Outgoing(x) ∧ Sprited(x) → FondOf(x, largeGroupFunction)) ¬((PreTeen(carol) ∨ YoungChildren(carol)) ∧ Attend(carol, wedding)) → ¬(GettingMarried(carol) ∨ (∃y (Know(carol, y) ∧ GettingMarried(y))))
Carol neither enjoys celebrating life milestone events with other people nor is outgoing and very spirited.
¬((∃y ∃z (¬(x=y) ∧ ¬(x=z) ∧ ¬(y=z) ∧ Enjoy(x, celebratingLifeMileStoneEvent, y) ∧ Enjoy(x, celebratingLifeStoneEvent, z)) ∨ (Outgoing(carol) ∧ Sprited(carol)))
True
1,010
395
All velvet-finish lipsticks in the Rouge Dior set, Lunar New Year Limited Edition are refillable. Lipsticks in the Rouge Dior set, Lunar New Year Limited Edition have either a velvet-finish or a satin-finish. No satin-finish lipsticks in the set do not have "rosewood" in its offical description. Lipstcks in the Rouge Dior set, Lunar New Year Limited Edition either does not have "rosewood" in its offical description or it has "rosewood" in its official description. ROUGE Dior Colored Lip Balm 999 is a lipstick in the set, and it either has "rosewood" in its official description or has a velvet finish.
∀x ((Lipstick(x) ∧ In(x, rougeDiorSet) ∧ In(x, lunarNewYearLimitedEdition) ∧ VelvetFinish(x)) → Refillable(x)) ∀x ((Lipstick(x) ∧ In(x, rougeDiorSet) ∧ In(x, lunarNewYearLimitedEdition)) → (VelvetFinish(x) ⊕ SatinFinish(x)) ∀x ((Lipstick(x) ∧ In(x, rougeDiorSet) ∧ In(x, lunarNewYearLimitedEdition) ∧ SatinFinish(x)) → ¬RosewoodInDescription(x)) ∀x ((Lipstick(x) ∧ In(x, rougeDiorSet) ∧ In(x, lunarNewYearLimitedEdition)) → (RosewoodInDescription(x) ⊕ ¬RosewoodInDescription(x))) Lipstick(rougeDiorColoredLipBalm999) ∧ In(rougeDiorColoredLipBalm999, rougeDiorSet) ∧ In(rougeDiorColoredLipBalm999, lunarNewYearLimitedEdition) ∧ (RosewoodInDescription(rougeDiorColoredLipBalm999) ⊕ VelvetFinish(rougeDiorColoredLipBalm999))
ROUGE Dior Colored Lip Balm 999 has a satin finish.
SatinFinish(rougeDiorColoredLipBalm999)
Uncertain
1,068
395
All velvet-finish lipsticks in the Rouge Dior set, Lunar New Year Limited Edition are refillable. Lipsticks in the Rouge Dior set, Lunar New Year Limited Edition have either a velvet-finish or a satin-finish. No satin-finish lipsticks in the set do not have "rosewood" in its offical description. Lipstcks in the Rouge Dior set, Lunar New Year Limited Edition either does not have "rosewood" in its offical description or it has "rosewood" in its official description. ROUGE Dior Colored Lip Balm 999 is a lipstick in the set, and it either has "rosewood" in its official description or has a velvet finish.
∀x ((Lipstick(x) ∧ In(x, rougeDiorSet) ∧ In(x, lunarNewYearLimitedEdition) ∧ VelvetFinish(x)) → Refillable(x)) ∀x ((Lipstick(x) ∧ In(x, rougeDiorSet) ∧ In(x, lunarNewYearLimitedEdition)) → (VelvetFinish(x) ⊕ SatinFinish(x)) ∀x ((Lipstick(x) ∧ In(x, rougeDiorSet) ∧ In(x, lunarNewYearLimitedEdition) ∧ SatinFinish(x)) → ¬RosewoodInDescription(x)) ∀x ((Lipstick(x) ∧ In(x, rougeDiorSet) ∧ In(x, lunarNewYearLimitedEdition)) → (RosewoodInDescription(x) ⊕ ¬RosewoodInDescription(x))) Lipstick(rougeDiorColoredLipBalm999) ∧ In(rougeDiorColoredLipBalm999, rougeDiorSet) ∧ In(rougeDiorColoredLipBalm999, lunarNewYearLimitedEdition) ∧ (RosewoodInDescription(rougeDiorColoredLipBalm999) ⊕ VelvetFinish(rougeDiorColoredLipBalm999))
ROUGE Dior Colored Lip Balm 999 has a satin finish and has "rosewood" in its official description.
Refillable(rougeDiorColoredLipBalm999) ∧ RosewoodInDescription(rougeDiorColoredLipBalm999)
True
1,069
395
All velvet-finish lipsticks in the Rouge Dior set, Lunar New Year Limited Edition are refillable. Lipsticks in the Rouge Dior set, Lunar New Year Limited Edition have either a velvet-finish or a satin-finish. No satin-finish lipsticks in the set do not have "rosewood" in its offical description. Lipstcks in the Rouge Dior set, Lunar New Year Limited Edition either does not have "rosewood" in its offical description or it has "rosewood" in its official description. ROUGE Dior Colored Lip Balm 999 is a lipstick in the set, and it either has "rosewood" in its official description or has a velvet finish.
∀x ((Lipstick(x) ∧ In(x, rougeDiorSet) ∧ In(x, lunarNewYearLimitedEdition) ∧ VelvetFinish(x)) → Refillable(x)) ∀x ((Lipstick(x) ∧ In(x, rougeDiorSet) ∧ In(x, lunarNewYearLimitedEdition)) → (VelvetFinish(x) ⊕ SatinFinish(x)) ∀x ((Lipstick(x) ∧ In(x, rougeDiorSet) ∧ In(x, lunarNewYearLimitedEdition) ∧ SatinFinish(x)) → ¬RosewoodInDescription(x)) ∀x ((Lipstick(x) ∧ In(x, rougeDiorSet) ∧ In(x, lunarNewYearLimitedEdition)) → (RosewoodInDescription(x) ⊕ ¬RosewoodInDescription(x))) Lipstick(rougeDiorColoredLipBalm999) ∧ In(rougeDiorColoredLipBalm999, rougeDiorSet) ∧ In(rougeDiorColoredLipBalm999, lunarNewYearLimitedEdition) ∧ (RosewoodInDescription(rougeDiorColoredLipBalm999) ⊕ VelvetFinish(rougeDiorColoredLipBalm999))
ROUGE Dior Colored Lip Balm 999 either is refillable or has "rosewood" in its official description.
Refillable(rougeDiorColoredLipBalm999) ⊕ RosewoodInDescription(rougeDiorColoredLipBalm999)
False
1,070
395
All velvet-finish lipsticks in the Rouge Dior set, Lunar New Year Limited Edition are refillable. Lipsticks in the Rouge Dior set, Lunar New Year Limited Edition have either a velvet-finish or a satin-finish. No satin-finish lipsticks in the set do not have "rosewood" in its offical description. Lipstcks in the Rouge Dior set, Lunar New Year Limited Edition either does not have "rosewood" in its offical description or it has "rosewood" in its official description. ROUGE Dior Colored Lip Balm 999 is a lipstick in the set, and it either has "rosewood" in its official description or has a velvet finish.
∀x ((Lipstick(x) ∧ In(x, rougeDiorSet) ∧ In(x, lunarNewYearLimitedEdition) ∧ VelvetFinish(x)) → Refillable(x)) ∀x ((Lipstick(x) ∧ In(x, rougeDiorSet) ∧ In(x, lunarNewYearLimitedEdition)) → (VelvetFinish(x) ⊕ SatinFinish(x)) ∀x ((Lipstick(x) ∧ In(x, rougeDiorSet) ∧ In(x, lunarNewYearLimitedEdition) ∧ SatinFinish(x)) → ¬RosewoodInDescription(x)) ∀x ((Lipstick(x) ∧ In(x, rougeDiorSet) ∧ In(x, lunarNewYearLimitedEdition)) → (RosewoodInDescription(x) ⊕ ¬RosewoodInDescription(x))) Lipstick(rougeDiorColoredLipBalm999) ∧ In(rougeDiorColoredLipBalm999, rougeDiorSet) ∧ In(rougeDiorColoredLipBalm999, lunarNewYearLimitedEdition) ∧ (RosewoodInDescription(rougeDiorColoredLipBalm999) ⊕ VelvetFinish(rougeDiorColoredLipBalm999))
If ROUGE Dior Colored Lip Balm 999 is not both a velvet finish ipstick in the set and refillable, then it neither is refillable nor has "rosewood" in its official description.
¬((Lipstick(rougeDiorColoredLipBalm999) ∧ In(rougeDiorColoredLipBalm999, rougeDiorSet) ∧ In(rougeDiorColoredLipBalm999, lunarNewYearLimitedEdition) ∧ VelvetFinish(rougeDiorColoredLipBalm999) ∧ Refillable(rougeDiorColoredLipBalm999)) → (¬Refillable(rougeDiorColoredLipBalm999) ∧ ¬RosewoodInDescription(rougeDiorColoredLipBalm999)))
True
1,071
395
All velvet-finish lipsticks in the Rouge Dior set, Lunar New Year Limited Edition are refillable. Lipsticks in the Rouge Dior set, Lunar New Year Limited Edition have either a velvet-finish or a satin-finish. No satin-finish lipsticks in the set do not have "rosewood" in its offical description. Lipstcks in the Rouge Dior set, Lunar New Year Limited Edition either does not have "rosewood" in its offical description or it has "rosewood" in its official description. ROUGE Dior Colored Lip Balm 999 is a lipstick in the set, and it either has "rosewood" in its official description or has a velvet finish.
∀x ((Lipstick(x) ∧ In(x, rougeDiorSet) ∧ In(x, lunarNewYearLimitedEdition) ∧ VelvetFinish(x)) → Refillable(x)) ∀x ((Lipstick(x) ∧ In(x, rougeDiorSet) ∧ In(x, lunarNewYearLimitedEdition)) → (VelvetFinish(x) ⊕ SatinFinish(x)) ∀x ((Lipstick(x) ∧ In(x, rougeDiorSet) ∧ In(x, lunarNewYearLimitedEdition) ∧ SatinFinish(x)) → ¬RosewoodInDescription(x)) ∀x ((Lipstick(x) ∧ In(x, rougeDiorSet) ∧ In(x, lunarNewYearLimitedEdition)) → (RosewoodInDescription(x) ⊕ ¬RosewoodInDescription(x))) Lipstick(rougeDiorColoredLipBalm999) ∧ In(rougeDiorColoredLipBalm999, rougeDiorSet) ∧ In(rougeDiorColoredLipBalm999, lunarNewYearLimitedEdition) ∧ (RosewoodInDescription(rougeDiorColoredLipBalm999) ⊕ VelvetFinish(rougeDiorColoredLipBalm999))
If ROUGE Dior Colored Lip Balm 999 is refillable and has "rosewood" in its official description, then it either has a velvet-finish or has "rosewood" in its official description.
(Refillable(rougeDiorColoredLipBalm999) ∧ RosewoodInDescription(rougeDiorColoredLipBalm999)) —> (VelvetFinish(rougeDiorColoredLipBalm999) ∨ RosewoodInDescription(rougeDiorColoredLipBalm999))
False
1,072
395
All velvet-finish lipsticks in the Rouge Dior set, Lunar New Year Limited Edition are refillable. Lipsticks in the Rouge Dior set, Lunar New Year Limited Edition have either a velvet-finish or a satin-finish. No satin-finish lipsticks in the set do not have "rosewood" in its offical description. Lipstcks in the Rouge Dior set, Lunar New Year Limited Edition either does not have "rosewood" in its offical description or it has "rosewood" in its official description. ROUGE Dior Colored Lip Balm 999 is a lipstick in the set, and it either has "rosewood" in its official description or has a velvet finish.
∀x ((Lipstick(x) ∧ In(x, rougeDiorSet) ∧ In(x, lunarNewYearLimitedEdition) ∧ VelvetFinish(x)) → Refillable(x)) ∀x ((Lipstick(x) ∧ In(x, rougeDiorSet) ∧ In(x, lunarNewYearLimitedEdition)) → (VelvetFinish(x) ⊕ SatinFinish(x)) ∀x ((Lipstick(x) ∧ In(x, rougeDiorSet) ∧ In(x, lunarNewYearLimitedEdition) ∧ SatinFinish(x)) → ¬RosewoodInDescription(x)) ∀x ((Lipstick(x) ∧ In(x, rougeDiorSet) ∧ In(x, lunarNewYearLimitedEdition)) → (RosewoodInDescription(x) ⊕ ¬RosewoodInDescription(x))) Lipstick(rougeDiorColoredLipBalm999) ∧ In(rougeDiorColoredLipBalm999, rougeDiorSet) ∧ In(rougeDiorColoredLipBalm999, lunarNewYearLimitedEdition) ∧ (RosewoodInDescription(rougeDiorColoredLipBalm999) ⊕ VelvetFinish(rougeDiorColoredLipBalm999))
If ROUGE Dior Colored Lip Balm 999 either does not have "rosewood" in its official description or is refillable, then it has "rosewood" in its official description.
(¬RosewoodInDescription(rougeEDiorColoredLipBalm999) ⊕ Refillable(rougeDiorColoredLipBalm999)) → RosewoodInDescription(rougeDiorColoredLipBalm999)
False
1,073
395
All velvet-finish lipsticks in the Rouge Dior set, Lunar New Year Limited Edition are refillable. Lipsticks in the Rouge Dior set, Lunar New Year Limited Edition have either a velvet-finish or a satin-finish. No satin-finish lipsticks in the set do not have "rosewood" in its offical description. Lipstcks in the Rouge Dior set, Lunar New Year Limited Edition either does not have "rosewood" in its offical description or it has "rosewood" in its official description. ROUGE Dior Colored Lip Balm 999 is a lipstick in the set, and it either has "rosewood" in its official description or has a velvet finish.
∀x ((Lipstick(x) ∧ In(x, rougeDiorSet) ∧ In(x, lunarNewYearLimitedEdition) ∧ VelvetFinish(x)) → Refillable(x)) ∀x ((Lipstick(x) ∧ In(x, rougeDiorSet) ∧ In(x, lunarNewYearLimitedEdition)) → (VelvetFinish(x) ⊕ SatinFinish(x)) ∀x ((Lipstick(x) ∧ In(x, rougeDiorSet) ∧ In(x, lunarNewYearLimitedEdition) ∧ SatinFinish(x)) → ¬RosewoodInDescription(x)) ∀x ((Lipstick(x) ∧ In(x, rougeDiorSet) ∧ In(x, lunarNewYearLimitedEdition)) → (RosewoodInDescription(x) ⊕ ¬RosewoodInDescription(x))) Lipstick(rougeDiorColoredLipBalm999) ∧ In(rougeDiorColoredLipBalm999, rougeDiorSet) ∧ In(rougeDiorColoredLipBalm999, lunarNewYearLimitedEdition) ∧ (RosewoodInDescription(rougeDiorColoredLipBalm999) ⊕ VelvetFinish(rougeDiorColoredLipBalm999))
If ROUGE Dior Colored Lip Balm 999 either does not have "rosewood" in its official description or is refillable, then it neither has a satin-finish nor has "rosewood" in its official description.
(RosewoodInDescription(rougeDiorColoredLipBalm999) ⊕ Refillable(rougeDiorColoredLipBalm999)) → ¬(SatinFinish(rougeDiorColoredLipBalm999) ∨ RosewoodInDescription(rougeDiorColoredLipBalm999))
False
1,074
395
All velvet-finish lipsticks in the Rouge Dior set, Lunar New Year Limited Edition are refillable. Lipsticks in the Rouge Dior set, Lunar New Year Limited Edition have either a velvet-finish or a satin-finish. No satin-finish lipsticks in the set do not have "rosewood" in its offical description. Lipstcks in the Rouge Dior set, Lunar New Year Limited Edition either does not have "rosewood" in its offical description or it has "rosewood" in its official description. ROUGE Dior Colored Lip Balm 999 is a lipstick in the set, and it either has "rosewood" in its official description or has a velvet finish.
∀x ((Lipstick(x) ∧ In(x, rougeDiorSet) ∧ In(x, lunarNewYearLimitedEdition) ∧ VelvetFinish(x)) → Refillable(x)) ∀x ((Lipstick(x) ∧ In(x, rougeDiorSet) ∧ In(x, lunarNewYearLimitedEdition)) → (VelvetFinish(x) ⊕ SatinFinish(x)) ∀x ((Lipstick(x) ∧ In(x, rougeDiorSet) ∧ In(x, lunarNewYearLimitedEdition) ∧ SatinFinish(x)) → ¬RosewoodInDescription(x)) ∀x ((Lipstick(x) ∧ In(x, rougeDiorSet) ∧ In(x, lunarNewYearLimitedEdition)) → (RosewoodInDescription(x) ⊕ ¬RosewoodInDescription(x))) Lipstick(rougeDiorColoredLipBalm999) ∧ In(rougeDiorColoredLipBalm999, rougeDiorSet) ∧ In(rougeDiorColoredLipBalm999, lunarNewYearLimitedEdition) ∧ (RosewoodInDescription(rougeDiorColoredLipBalm999) ⊕ VelvetFinish(rougeDiorColoredLipBalm999))
If ROUGE Dior Colored Lip Balm 999 is refillable or has "rosewood" in its official description, then it either is refillable or has "rosewood" in its official description..
(Refillable(rougeDiorColoredLipBalm999) ∨ RosewoodInDescription(rougeDiorColoredLipBalm999)) → (Refillable(rougeEDiorColoredLipBalm999) ⊕ RosewoodInDescription(rougeDiorColoredLipBalm999))
False
1,075
265
All Senate Republicans are elected officials. Some elected officials are not conservatives.
∀x (SenateRepublican(x) → ElectedOfficial(x)) ∃x ∃y (ElectedOfficial(x) ∧ ElectedOfficial(y) ∧ ¬Conservative(x) ∧ ¬Conservative(y) ∧ ¬(x=y))
Some conservatives are not Senate Republicans.
∃x ∃y (Conservative(x) ∧ Conservative(y) ∧ ¬SenateRepublican(x) ∧ ¬SenateRepublican(y) ∧ ¬(x=y))
Uncertain
709
337
No athletes never exercise. All professional basketball players are athletes. All NBA players are professional basketball players. All Knicks players are NBA players. Either John is a professional basketball player and he never exercises, or he is not a professional basketball player and he sometimes exercises.
∀x (Athlete(x) → ¬NeverExercises(x)) Never: does not exist a time ∀x (ProfessionalBasketballPlayer(x) → Athlete(x)) ∀x (NBAPlayer(x) → ProfessionalBasketballPlayer(x)) ∀x (KnicksPlayer(x) → NBAPlayer(x)) ¬(ProfessionalBasketballPlayer(jim) ⊕ NeverExercises(jim))
Jim is a Knicks player.
KnicksPlayer(jim)
False
881
337
No athletes never exercise. All professional basketball players are athletes. All NBA players are professional basketball players. All Knicks players are NBA players. Either John is a professional basketball player and he never exercises, or he is not a professional basketball player and he sometimes exercises.
∀x (Athlete(x) → ¬NeverExercises(x)) Never: does not exist a time ∀x (ProfessionalBasketballPlayer(x) → Athlete(x)) ∀x (NBAPlayer(x) → ProfessionalBasketballPlayer(x)) ∀x (KnicksPlayer(x) → NBAPlayer(x)) ¬(ProfessionalBasketballPlayer(jim) ⊕ NeverExercises(jim))
Jim is not a Knicks player.
¬KnicksPlayer(jim)
True
882
337
No athletes never exercise. All professional basketball players are athletes. All NBA players are professional basketball players. All Knicks players are NBA players. Either John is a professional basketball player and he never exercises, or he is not a professional basketball player and he sometimes exercises.
∀x (Athlete(x) → ¬NeverExercises(x)) Never: does not exist a time ∀x (ProfessionalBasketballPlayer(x) → Athlete(x)) ∀x (NBAPlayer(x) → ProfessionalBasketballPlayer(x)) ∀x (KnicksPlayer(x) → NBAPlayer(x)) ¬(ProfessionalBasketballPlayer(jim) ⊕ NeverExercises(jim))
Jim is an athlete.
Athlete(jim)
Uncertain
883
345
All kids are young. All toddlers are kids. If someone is young, then they are not elderly. All pirates are seafarers. If Nancy is not a pirate, then Nancy is young. If Nancy is not a toddler, then Nancy is a seafarer.
∀x (Kid(x) → Young(x)) ∀x (Toddler(x) → Kid(x)) ∀x (Young(x) → ¬Elderly(x)) ∀x (Pirate(x) → Seafarer(x)) ¬Pirate(nancy) → Young(nancy) ¬Toddler(nancy) → Seafarer(nancy)
Nancy is a pirate.
Pirate(nancy)
Uncertain
910
345
All kids are young. All toddlers are kids. If someone is young, then they are not elderly. All pirates are seafarers. If Nancy is not a pirate, then Nancy is young. If Nancy is not a toddler, then Nancy is a seafarer.
∀x (Kid(x) → Young(x)) ∀x (Toddler(x) → Kid(x)) ∀x (Young(x) → ¬Elderly(x)) ∀x (Pirate(x) → Seafarer(x)) ¬Pirate(nancy) → Young(nancy) ¬Toddler(nancy) → Seafarer(nancy)
Nancy is either both a pirate and a toddler, or neither a pirate nor a toddler.
¬(Pirate(nancy) ⊕ Toddler(nancy))
False
911

https://github.com/Yale-LILY/FOLIO

@article{han2022folio,
  title={FOLIO: Natural Language Reasoning with First-Order Logic},
  author = {Han, Simeng and Schoelkopf, Hailey and Zhao, Yilun and Qi, Zhenting and Riddell, Martin and Benson, Luke and Sun, Lucy and Zubova, Ekaterina and Qiao, Yujie and Burtell, Matthew and Peng, David and Fan, Jonathan and Liu, Yixin and Wong, Brian and Sailor, Malcolm and Ni, Ansong and Nan, Linyong and Kasai, Jungo and Yu, Tao and Zhang, Rui and Joty, Shafiq and Fabbri, Alexander R. and Kryscinski, Wojciech and Lin, Xi Victoria and Xiong, Caiming and Radev, Dragomir},
  journal={arXiv preprint arXiv:2209.00840},
  url = {https://arxiv.org/abs/2209.00840},
  year={2022}
}
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