WiSe 2025/26: Semantics 1: Difference between revisions
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= Meeting 3 = | |||
== Computing the truth value of atomic formulae == | |||
The following video presents the step-by-step computation of the truth value of two atomic formulae. | |||
The example uses a model based on Shakespeare's play ''Macbeth''. | |||
The two formulae are: | |||
* '''kill2(macbeth,duncan)''' | |||
* '''kill2(lady-macbeth,macbeth)''' | |||
<embedvideo service="youtube" dimensions="400">http://youtu.be/8HGCB9urmbg</embedvideo> | |||
== Syntax of atomic formulae == | |||
=== Exercise 1 === | |||
{{CreatedByStudents1213}}<br />''Involved participants: [[User:Lisa| Lisa]], [[User:Marthe| Marthe]], [[User:Elisabeth.krall| Elisabeth]], and [[User:IsaB|Isabelle]].'' | |||
This exercise is based on the following scenario: | |||
<blockquote>At the time Alice, Paul, Tom and Lisa live in Berlin, but they rather want to live in Munich. Alice is married to Paul. They are Tom and Lisa's parents. Both Lisa and her father are tall, while Alice and Tom are rather small. Lisa and her mom share the same hair color, which is blonde. The family enjoys watching American football games together. But while the girls also like watching soccer, the boys get bored of it. Walter, the family's dog, doesn't care about sports at all, he likes to eat the familiy members´ shoes. | |||
</blockquote> | |||
Which of the following expressions of predicate logic are formulae? Give an explanation for your decision. If the expression is not a formula try to change it into one.<br />''(Click on the box if the expressionis a formula. When you press the '''submit''' button, you will see a suggestion for the second part of the question.)'' | |||
<quiz display="simple"> | |||
{ } | |||
- '''family-dog''' | |||
|| '''family-dog''' is just a predicate symbol. It cannot be interpreted as true or false, as its argument is missing. A possible formula would be: '''family-dog'''('''walter''') | |||
{ } | |||
- '''blonde'''('''alice''','''paul''') | |||
|| It cannot be interpreted as true or false. As '''blonde''' is a property and not a relation it can therefore only have one individual as its argument. A possible formula would be: '''blonde'''('''alice''') | |||
{ } | |||
+ '''father-of'''('''alice''','''lisa)''' | |||
|| '''father-of''' is a relation and therefore requires two individuals as its arguments. Of course, this formula is not true. Alice can never be a father of someone. However, although the interpretation of the formula is wrong, it is still a formula as it can be interpreted as true or false. | |||
{ } | |||
+ '''tall'''('''alice''') | |||
|| As '''tall''' is a property it requires one individual in brackets. This is the case and it can therefore be interpreted as true or false. | |||
{ } | |||
- '''enjoy-watching-football-together''' | |||
|| It cannot be interpreted as true or false. As “enjoy-watching-football-together" is a relation two individuals are required. A possible formula would be: '''enjoy-watching-football-together'''('''walter''','''alice''') | |||
</quiz> | |||
For a general explanation of formulae [[General_Explanation_Formulae|Click here]] | |||
<hr /> | |||
=== Exercise 2 === | |||
For the following exercises we use names and properties from the ''The Lord of the Rings'' novels. | |||
Names: '''frodo''', '''sam''', '''gandalf''', '''aragorn'''<br /> | |||
1-place predicates: '''hobbit''', '''wizard'''<br /> | |||
2-place predicates: '''know''', '''help''' | |||
<quiz display="simple"> | |||
{Click on the items that are well-formed expressions of the semantic representation language. | |||
} | |||
+ '''gandalf''' | |||
+ '''hobbit''' | |||
- '''sauron''' | |||
|| The name '''sauron''' is not included in the non-logical vocabulary. | |||
- '''know'''('''gandalf''') | |||
|| '''know''' is a 2-place predicate. Therefore it must combine with two arguments. | |||
+ '''help'''('''aragorn''','''frodo''') | |||
{Click on the expressions that are well-formed formulae. | |||
} | |||
- '''hobbit''' | |||
- '''frodo''' | |||
+ '''hobbit'''('''aragorn''') | |||
</quiz> | |||
== Interpretation of atomic formulae == | |||
Interpret the following formulae as true or false. If you have not defined these relations or properties in your model use the ones given in [[ExerciseFOModels-d|a previous exercise]]. | |||
* '''father-of-someone'''('''paul''','''lisa''') | |||
<div class="toccolours mw-collapsible mw-collapsed" style="width:800px"> | |||
Check your answers | |||
<div class="mw-collapsible-content"> | |||
<nowiki>[[</nowiki>'''father-of-someone'''('''paul''','''lisa''')]] = ''true'' iff<br /> | |||
< <nowiki>[[</nowiki>'''paul''']], <nowiki>[[</nowiki>'''lisa''']] > ∈ <nowiki>[[</nowiki>'''father-of-someone''']] iff<br /> | |||
< I('''paul'''), I('''lisa''') > ∈ I('''father-of-someone''') iff<br /> | |||
< ''Paul'', ''Lisa''> ∈ {<''Paul, Tom''>,<''Paul, Lisa''>}. | |||
Since this is the case, the formula is true. | |||
</div> | |||
</div> | |||
* '''blonde'''('''walter''') | |||
<div class="toccolours mw-collapsible mw-collapsed" style="width:800px"> | |||
Check your answers | |||
<div class="mw-collapsible-content"> | |||
<nowiki>[[</nowiki>'''blonde(walter)''']] = ''true'' iff<br /> | |||
< I('''walter''') > ∈ I('''blonde''') iff <br /> | |||
< ''Walter'' > ∈ {< ''Alice'' >,< ''Lisa'' >}. | |||
Since this is not the case, the overall formula is false. | |||
</div> | |||
</div> | |||
* '''enjoy-watching-football-together'''('''alice''','''tom''') | |||
<div class="toccolours mw-collapsible mw-collapsed" style="width:800px"> | |||
Check your answers | |||
<div class="mw-collapsible-content"> | |||
<nowiki>[[</nowiki>'''enjoy-watching-football-togehter(alice,tom)''']] = ''true'' iff<br /> | |||
< I('''alice'''), I('''tom''') > ∈ I('''enjoy-watching-football-together''') iff<br /> | |||
< ''Alice'', ''Tom'' > ∈ {<''Alice, Paul''>,<''Paul, Alice''>,<''Alice, Lisa''>,<''Lisa, Alice''>,<''Alice, Tom''>,<''Tom, Alice''>,<''Paul, Lisa''>,<''Lisa, Paul''>,<''Paul, Tom''>,<''Tom, Paul''>,<''Tom, Lisa''>,<''Lisa, Tom''>} | |||
Since this is the case, the formula is true. | |||
</div> | |||
</div> | |||
= Meeting 2= | = Meeting 2= | ||
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:: I('''grand-child-of2''') = ''GrandChildOf'' = { <''x'',''y''> | ''x'' is ''y'' 's grandchild } = { <''LittleRedRidingHood'',''Grandmother'' > } | :: I('''grand-child-of2''') = ''GrandChildOf'' = { <''x'',''y''> | ''x'' is ''y'' 's grandchild } = { <''LittleRedRidingHood'',''Grandmother'' > } | ||
:: I('''afternoon-snack-of2''') = ''AfternoonSnackOf'' = { <''x'',''y''> | ''x'' is ''y'' 's afternoon snack } = { <''LittleRedRidingHood'',''Wolf'' > } | :: I('''afternoon-snack-of2''') = ''AfternoonSnackOf'' = { <''x'',''y''> | ''x'' is ''y'' 's afternoon snack } = { <''LittleRedRidingHood'',''Wolf'' > } | ||
= Meeting 1 = | = Meeting 1 = | ||
Latest revision as of 08:58, 28 October 2025
Meeting 3
Computing the truth value of atomic formulae
The following video presents the step-by-step computation of the truth value of two atomic formulae. The example uses a model based on Shakespeare's play Macbeth. The two formulae are:
- kill2(macbeth,duncan)
- kill2(lady-macbeth,macbeth)
Syntax of atomic formulae
Exercise 1
The following material is an adapted form of material created by student participants of the project e-Learning Resources for Semantics (e-LRS).
Involved participants: Lisa, Marthe, Elisabeth, and Isabelle.
This exercise is based on the following scenario:
At the time Alice, Paul, Tom and Lisa live in Berlin, but they rather want to live in Munich. Alice is married to Paul. They are Tom and Lisa's parents. Both Lisa and her father are tall, while Alice and Tom are rather small. Lisa and her mom share the same hair color, which is blonde. The family enjoys watching American football games together. But while the girls also like watching soccer, the boys get bored of it. Walter, the family's dog, doesn't care about sports at all, he likes to eat the familiy members´ shoes.
Which of the following expressions of predicate logic are formulae? Give an explanation for your decision. If the expression is not a formula try to change it into one.
(Click on the box if the expressionis a formula. When you press the submit button, you will see a suggestion for the second part of the question.)
For a general explanation of formulae Click here
Exercise 2
For the following exercises we use names and properties from the The Lord of the Rings novels.
Names: frodo, sam, gandalf, aragorn
1-place predicates: hobbit, wizard
2-place predicates: know, help
Interpretation of atomic formulae
Interpret the following formulae as true or false. If you have not defined these relations or properties in your model use the ones given in a previous exercise.
- father-of-someone(paul,lisa)
Check your answers
[[father-of-someone(paul,lisa)]] = true iff
< [[paul]], [[lisa]] > ∈ [[father-of-someone]] iff
< I(paul), I(lisa) > ∈ I(father-of-someone) iff
< Paul, Lisa> ∈ {<Paul, Tom>,<Paul, Lisa>}.
Since this is the case, the formula is true.
- blonde(walter)
Check your answers
[[blonde(walter)]] = true iff
< I(walter) > ∈ I(blonde) iff
< Walter > ∈ {< Alice >,< Lisa >}.
Since this is not the case, the overall formula is false.
- enjoy-watching-football-together(alice,tom)
Check your answers
[[enjoy-watching-football-togehter(alice,tom)]] = true iff
< I(alice), I(tom) > ∈ I(enjoy-watching-football-together) iff
< Alice, Tom > ∈ {<Alice, Paul>,<Paul, Alice>,<Alice, Lisa>,<Lisa, Alice>,<Alice, Tom>,<Tom, Alice>,<Paul, Lisa>,<Lisa, Paul>,<Paul, Tom>,<Tom, Paul>,<Tom, Lisa>,<Lisa, Tom>}
Since this is the case, the formula is true.
Meeting 2
Models
The following material is an adapted form of material created by student participants of the project e-Learning Resources for Semantics (e-LRS). Involved participants: Lisa, Marthe, Elisabeth, Isabelle.
Watch a short podcast what first-order models look like.
Based on this podcast, we can define a scenario as follows:
- Universe: U = {LittleRedRidingHood, Grandmother, Wolf}
- Properties:
- RedHood = { < x> | x wears a read hood } = { <LittleRedRidingHood> }
- Female = { <x> | x is female } = { <LittleRedRidingHood>, <Grandmother> }
- BigMouth = { <x> | x has a big mouth } = { <Wolf> }
- LiveInForest = { < x> | x lives in the forest } = { <Grandmother>, <Wolf>}
- Relations:
- GrandChildOf = { <x,y> | x is y 's grandchild } = { <LittleRedRidingHood,Grandmother > }
- AfternoonSnackOf = { <x,y> | x is y 's afternoon snack } = { <LittleRedRidingHood,Wolf > }
From this scenario, we can build a model M = < U, I >
- Universe: U = {LittleRedRidingHood, Grandmother, Wolf}
- Name symbols: NAME = {little-red-riding-hood}
Note: In our model, only one individual has a name. - Predicate symbols: PREDICATE = {red-hood1, female1, big-mouth, live-in-forest1, grand-child-of2, afternoon-snack-of2}
- Interpretation function I:
- for name symbols: I(little-red-riding-hood) = LittleRedRidingHood
- for predicate symbols:
- I(red-hood1) = RedHood = { < x> | x wears a read hood } = { <LittleRedRidingHood> }
- I(female) = Female = { <x> | x is female } = { <LittleRedRidingHood>, <Grandmother> }
- I(big-mouth1) = BigMouth = { <x> | x has a big mouth } = { <Wolf> }
- I(live-in-forest1) = LiveInForest = { < x> | x lives in the forest } = { <Grandmother>, <Wolf>}
- I(grand-child-of2) = GrandChildOf = { <x,y> | x is y 's grandchild } = { <LittleRedRidingHood,Grandmother > }
- I(afternoon-snack-of2) = AfternoonSnackOf = { <x,y> | x is y 's afternoon snack } = { <LittleRedRidingHood,Wolf > }
Meeting 1
Video
Challenging phenomena at the syntax-semantics interface
Scenario
The Hunger Games (film, 2012): https://en.wikipedia.org/wiki/The_Hunger_Games_(film)