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When is a connective truth functional?
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I got this question from Logic, laws of truth, by Nicholas J.J Smith.
He says (page 24) :
"A connective is truth functional if it has the property that the truth or falsity of a compound proposition formed from the connective and some other propositions is completely determined by the truth or falsity of those component propositions."
I don't really seem to be able to appreciate the usefulness of truth-functional connectives.
Perhaps, I don't understand what he is saying in that paragraph, so I would appreciate any explanation of what he is trying to say and why truth-functional connectives are useful.
Also (if you want to) can you guys explain what Nicholas means when he says "...this proposition has no internal structure..."?
logic
New contributor
add a comment |
I got this question from Logic, laws of truth, by Nicholas J.J Smith.
He says (page 24) :
"A connective is truth functional if it has the property that the truth or falsity of a compound proposition formed from the connective and some other propositions is completely determined by the truth or falsity of those component propositions."
I don't really seem to be able to appreciate the usefulness of truth-functional connectives.
Perhaps, I don't understand what he is saying in that paragraph, so I would appreciate any explanation of what he is trying to say and why truth-functional connectives are useful.
Also (if you want to) can you guys explain what Nicholas means when he says "...this proposition has no internal structure..."?
logic
New contributor
1
When its truth value only depends on truth values of its components, and not their meaning. For example, natural disjunction is not truth functional: "it will rain tomorrow or it will not rain tomorrow" holds today even though neither "it will rain tomorrow" nor "it will not rain tomorrow" have definitive truth values today.
– Conifold
7 hours ago
add a comment |
I got this question from Logic, laws of truth, by Nicholas J.J Smith.
He says (page 24) :
"A connective is truth functional if it has the property that the truth or falsity of a compound proposition formed from the connective and some other propositions is completely determined by the truth or falsity of those component propositions."
I don't really seem to be able to appreciate the usefulness of truth-functional connectives.
Perhaps, I don't understand what he is saying in that paragraph, so I would appreciate any explanation of what he is trying to say and why truth-functional connectives are useful.
Also (if you want to) can you guys explain what Nicholas means when he says "...this proposition has no internal structure..."?
logic
New contributor
I got this question from Logic, laws of truth, by Nicholas J.J Smith.
He says (page 24) :
"A connective is truth functional if it has the property that the truth or falsity of a compound proposition formed from the connective and some other propositions is completely determined by the truth or falsity of those component propositions."
I don't really seem to be able to appreciate the usefulness of truth-functional connectives.
Perhaps, I don't understand what he is saying in that paragraph, so I would appreciate any explanation of what he is trying to say and why truth-functional connectives are useful.
Also (if you want to) can you guys explain what Nicholas means when he says "...this proposition has no internal structure..."?
logic
logic
New contributor
New contributor
edited 4 hours ago
Frank Hubeny
9,69051553
9,69051553
New contributor
asked 12 hours ago
MinigameZ moreMinigameZ more
464
464
New contributor
New contributor
1
When its truth value only depends on truth values of its components, and not their meaning. For example, natural disjunction is not truth functional: "it will rain tomorrow or it will not rain tomorrow" holds today even though neither "it will rain tomorrow" nor "it will not rain tomorrow" have definitive truth values today.
– Conifold
7 hours ago
add a comment |
1
When its truth value only depends on truth values of its components, and not their meaning. For example, natural disjunction is not truth functional: "it will rain tomorrow or it will not rain tomorrow" holds today even though neither "it will rain tomorrow" nor "it will not rain tomorrow" have definitive truth values today.
– Conifold
7 hours ago
1
1
When its truth value only depends on truth values of its components, and not their meaning. For example, natural disjunction is not truth functional: "it will rain tomorrow or it will not rain tomorrow" holds today even though neither "it will rain tomorrow" nor "it will not rain tomorrow" have definitive truth values today.
– Conifold
7 hours ago
When its truth value only depends on truth values of its components, and not their meaning. For example, natural disjunction is not truth functional: "it will rain tomorrow or it will not rain tomorrow" holds today even though neither "it will rain tomorrow" nor "it will not rain tomorrow" have definitive truth values today.
– Conifold
7 hours ago
add a comment |
2 Answers
2
active
oldest
votes
When is a connective truth functional?
Short answer : when it is defined by a truth table.
Classical propositional logic is a truth-functional logic in that every statement has exactly one truth value which is either true or false, and every logical connective is truth functional (with a correspondent truth table), thus every compound statement is a truth function. On the contrary, modal logic is non-truth-functional.
See an example in Truth Functionality and non-Truth Functional Connectives, comparing :
Agnes will attend law school and so will Bob,
where the truth-value of the compound sentence depends only on the truth-value of the two atomic sentences, with :
Agnes will attend law school and then she will make millions,
where the "and then" connective express a time-dependency between the two atomic sentences.
For different examples, see 6.3.1 Indicative and Counterfactual Conditionals (page 110) of Smith's book.
An example (motivated by your previous question) dealing with the concept of "internal structure" of a statement will be the following.
The statement
"Jim is a bachelor and Jim (the same Jim) is married"
is not a contradiction in propositional logic, because the sentence has the logical form B ∧ M, and this formula is not a contradiction.
In order to discover the contradicition, we need a deeper level of analysis that consider also the semantics of the expressions "is a bachelor" and "is married", in addition to the logical connective "and".
This level of analysis will be available with predicate logic where we can analyze the atomic sentences with a subject-predicate logical form :
Bachelor(Jim) and Married(Jim).
In this case, privided the axiom :
Bachelor(x) iff not Married(x),
we may derive the contradiction not expressible in propositional logic.
add a comment |
Nicholas Smith defines the internal structure of arguments as propositions (page 23-4). He then breaks propositions, the internal structure of arguments, into two kinds.
Basic propositions which have no parts that are themselves propositions.
Compound propositions which are composed of other propositions and connectives between them.
Propositional logic studies the internal structure of compound propositions, but it does not concern itself with the internal structure of basic propositions, that is, it is not interested in the internal structure of basic propositions.
Predicate logic looks at the internal structure of basic propositions.
Here are the questions:
I don't really seem to be able to appreciate the usefulness of truth-functional connectives.
Truth-functional connectives allow one to study compound propositions in propositional logic. These connectives are part of the internal structure that breaks the compound proposition into component propositions and connectives. This is why they are useful.
Perhaps, I don't understand what he is saying in that paragraph, so I would appreciate any explanation of what he is trying to say and why truth-functional connectives are useful.
The truth or falsity of the compound proposition can be determined by examining the truth or falsity of its component propositions and by studying how they are related by the connectives joining those component propositions.
Instead of trying to determine the truth or falsity of a compound proposition, which might be complicated, there is a way to break that compound proposition into simpler component propositions by looking at how the connectives join them together into the compound proposition. That is what makes truth-functional connectives useful. They simplify the problem of determining the truth value of compound propositions.
Also (if you want to) can you guys explain what Nicholas means when he says "...this proposition has no internal structure..."?
Smith discussed three levels of internal structure.
- An argument has an internal structure made up of propositions.
- A compound proposition has an internal structure made up of other propositions and connectives studied in propositional logic.
- A basic proposition has an internal structure as well which is studied in predicate logic.
From the perspective of propositional logic the basic propositions can be viewed as having no internal structure that propositional logic studies.
Smith, N. J. (2012). Logic: The laws of truth. Princeton University Press.
add a comment |
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When is a connective truth functional?
Short answer : when it is defined by a truth table.
Classical propositional logic is a truth-functional logic in that every statement has exactly one truth value which is either true or false, and every logical connective is truth functional (with a correspondent truth table), thus every compound statement is a truth function. On the contrary, modal logic is non-truth-functional.
See an example in Truth Functionality and non-Truth Functional Connectives, comparing :
Agnes will attend law school and so will Bob,
where the truth-value of the compound sentence depends only on the truth-value of the two atomic sentences, with :
Agnes will attend law school and then she will make millions,
where the "and then" connective express a time-dependency between the two atomic sentences.
For different examples, see 6.3.1 Indicative and Counterfactual Conditionals (page 110) of Smith's book.
An example (motivated by your previous question) dealing with the concept of "internal structure" of a statement will be the following.
The statement
"Jim is a bachelor and Jim (the same Jim) is married"
is not a contradiction in propositional logic, because the sentence has the logical form B ∧ M, and this formula is not a contradiction.
In order to discover the contradicition, we need a deeper level of analysis that consider also the semantics of the expressions "is a bachelor" and "is married", in addition to the logical connective "and".
This level of analysis will be available with predicate logic where we can analyze the atomic sentences with a subject-predicate logical form :
Bachelor(Jim) and Married(Jim).
In this case, privided the axiom :
Bachelor(x) iff not Married(x),
we may derive the contradiction not expressible in propositional logic.
add a comment |
When is a connective truth functional?
Short answer : when it is defined by a truth table.
Classical propositional logic is a truth-functional logic in that every statement has exactly one truth value which is either true or false, and every logical connective is truth functional (with a correspondent truth table), thus every compound statement is a truth function. On the contrary, modal logic is non-truth-functional.
See an example in Truth Functionality and non-Truth Functional Connectives, comparing :
Agnes will attend law school and so will Bob,
where the truth-value of the compound sentence depends only on the truth-value of the two atomic sentences, with :
Agnes will attend law school and then she will make millions,
where the "and then" connective express a time-dependency between the two atomic sentences.
For different examples, see 6.3.1 Indicative and Counterfactual Conditionals (page 110) of Smith's book.
An example (motivated by your previous question) dealing with the concept of "internal structure" of a statement will be the following.
The statement
"Jim is a bachelor and Jim (the same Jim) is married"
is not a contradiction in propositional logic, because the sentence has the logical form B ∧ M, and this formula is not a contradiction.
In order to discover the contradicition, we need a deeper level of analysis that consider also the semantics of the expressions "is a bachelor" and "is married", in addition to the logical connective "and".
This level of analysis will be available with predicate logic where we can analyze the atomic sentences with a subject-predicate logical form :
Bachelor(Jim) and Married(Jim).
In this case, privided the axiom :
Bachelor(x) iff not Married(x),
we may derive the contradiction not expressible in propositional logic.
add a comment |
When is a connective truth functional?
Short answer : when it is defined by a truth table.
Classical propositional logic is a truth-functional logic in that every statement has exactly one truth value which is either true or false, and every logical connective is truth functional (with a correspondent truth table), thus every compound statement is a truth function. On the contrary, modal logic is non-truth-functional.
See an example in Truth Functionality and non-Truth Functional Connectives, comparing :
Agnes will attend law school and so will Bob,
where the truth-value of the compound sentence depends only on the truth-value of the two atomic sentences, with :
Agnes will attend law school and then she will make millions,
where the "and then" connective express a time-dependency between the two atomic sentences.
For different examples, see 6.3.1 Indicative and Counterfactual Conditionals (page 110) of Smith's book.
An example (motivated by your previous question) dealing with the concept of "internal structure" of a statement will be the following.
The statement
"Jim is a bachelor and Jim (the same Jim) is married"
is not a contradiction in propositional logic, because the sentence has the logical form B ∧ M, and this formula is not a contradiction.
In order to discover the contradicition, we need a deeper level of analysis that consider also the semantics of the expressions "is a bachelor" and "is married", in addition to the logical connective "and".
This level of analysis will be available with predicate logic where we can analyze the atomic sentences with a subject-predicate logical form :
Bachelor(Jim) and Married(Jim).
In this case, privided the axiom :
Bachelor(x) iff not Married(x),
we may derive the contradiction not expressible in propositional logic.
When is a connective truth functional?
Short answer : when it is defined by a truth table.
Classical propositional logic is a truth-functional logic in that every statement has exactly one truth value which is either true or false, and every logical connective is truth functional (with a correspondent truth table), thus every compound statement is a truth function. On the contrary, modal logic is non-truth-functional.
See an example in Truth Functionality and non-Truth Functional Connectives, comparing :
Agnes will attend law school and so will Bob,
where the truth-value of the compound sentence depends only on the truth-value of the two atomic sentences, with :
Agnes will attend law school and then she will make millions,
where the "and then" connective express a time-dependency between the two atomic sentences.
For different examples, see 6.3.1 Indicative and Counterfactual Conditionals (page 110) of Smith's book.
An example (motivated by your previous question) dealing with the concept of "internal structure" of a statement will be the following.
The statement
"Jim is a bachelor and Jim (the same Jim) is married"
is not a contradiction in propositional logic, because the sentence has the logical form B ∧ M, and this formula is not a contradiction.
In order to discover the contradicition, we need a deeper level of analysis that consider also the semantics of the expressions "is a bachelor" and "is married", in addition to the logical connective "and".
This level of analysis will be available with predicate logic where we can analyze the atomic sentences with a subject-predicate logical form :
Bachelor(Jim) and Married(Jim).
In this case, privided the axiom :
Bachelor(x) iff not Married(x),
we may derive the contradiction not expressible in propositional logic.
edited 11 hours ago
answered 12 hours ago
Mauro ALLEGRANZAMauro ALLEGRANZA
29.4k22065
29.4k22065
add a comment |
add a comment |
Nicholas Smith defines the internal structure of arguments as propositions (page 23-4). He then breaks propositions, the internal structure of arguments, into two kinds.
Basic propositions which have no parts that are themselves propositions.
Compound propositions which are composed of other propositions and connectives between them.
Propositional logic studies the internal structure of compound propositions, but it does not concern itself with the internal structure of basic propositions, that is, it is not interested in the internal structure of basic propositions.
Predicate logic looks at the internal structure of basic propositions.
Here are the questions:
I don't really seem to be able to appreciate the usefulness of truth-functional connectives.
Truth-functional connectives allow one to study compound propositions in propositional logic. These connectives are part of the internal structure that breaks the compound proposition into component propositions and connectives. This is why they are useful.
Perhaps, I don't understand what he is saying in that paragraph, so I would appreciate any explanation of what he is trying to say and why truth-functional connectives are useful.
The truth or falsity of the compound proposition can be determined by examining the truth or falsity of its component propositions and by studying how they are related by the connectives joining those component propositions.
Instead of trying to determine the truth or falsity of a compound proposition, which might be complicated, there is a way to break that compound proposition into simpler component propositions by looking at how the connectives join them together into the compound proposition. That is what makes truth-functional connectives useful. They simplify the problem of determining the truth value of compound propositions.
Also (if you want to) can you guys explain what Nicholas means when he says "...this proposition has no internal structure..."?
Smith discussed three levels of internal structure.
- An argument has an internal structure made up of propositions.
- A compound proposition has an internal structure made up of other propositions and connectives studied in propositional logic.
- A basic proposition has an internal structure as well which is studied in predicate logic.
From the perspective of propositional logic the basic propositions can be viewed as having no internal structure that propositional logic studies.
Smith, N. J. (2012). Logic: The laws of truth. Princeton University Press.
add a comment |
Nicholas Smith defines the internal structure of arguments as propositions (page 23-4). He then breaks propositions, the internal structure of arguments, into two kinds.
Basic propositions which have no parts that are themselves propositions.
Compound propositions which are composed of other propositions and connectives between them.
Propositional logic studies the internal structure of compound propositions, but it does not concern itself with the internal structure of basic propositions, that is, it is not interested in the internal structure of basic propositions.
Predicate logic looks at the internal structure of basic propositions.
Here are the questions:
I don't really seem to be able to appreciate the usefulness of truth-functional connectives.
Truth-functional connectives allow one to study compound propositions in propositional logic. These connectives are part of the internal structure that breaks the compound proposition into component propositions and connectives. This is why they are useful.
Perhaps, I don't understand what he is saying in that paragraph, so I would appreciate any explanation of what he is trying to say and why truth-functional connectives are useful.
The truth or falsity of the compound proposition can be determined by examining the truth or falsity of its component propositions and by studying how they are related by the connectives joining those component propositions.
Instead of trying to determine the truth or falsity of a compound proposition, which might be complicated, there is a way to break that compound proposition into simpler component propositions by looking at how the connectives join them together into the compound proposition. That is what makes truth-functional connectives useful. They simplify the problem of determining the truth value of compound propositions.
Also (if you want to) can you guys explain what Nicholas means when he says "...this proposition has no internal structure..."?
Smith discussed three levels of internal structure.
- An argument has an internal structure made up of propositions.
- A compound proposition has an internal structure made up of other propositions and connectives studied in propositional logic.
- A basic proposition has an internal structure as well which is studied in predicate logic.
From the perspective of propositional logic the basic propositions can be viewed as having no internal structure that propositional logic studies.
Smith, N. J. (2012). Logic: The laws of truth. Princeton University Press.
add a comment |
Nicholas Smith defines the internal structure of arguments as propositions (page 23-4). He then breaks propositions, the internal structure of arguments, into two kinds.
Basic propositions which have no parts that are themselves propositions.
Compound propositions which are composed of other propositions and connectives between them.
Propositional logic studies the internal structure of compound propositions, but it does not concern itself with the internal structure of basic propositions, that is, it is not interested in the internal structure of basic propositions.
Predicate logic looks at the internal structure of basic propositions.
Here are the questions:
I don't really seem to be able to appreciate the usefulness of truth-functional connectives.
Truth-functional connectives allow one to study compound propositions in propositional logic. These connectives are part of the internal structure that breaks the compound proposition into component propositions and connectives. This is why they are useful.
Perhaps, I don't understand what he is saying in that paragraph, so I would appreciate any explanation of what he is trying to say and why truth-functional connectives are useful.
The truth or falsity of the compound proposition can be determined by examining the truth or falsity of its component propositions and by studying how they are related by the connectives joining those component propositions.
Instead of trying to determine the truth or falsity of a compound proposition, which might be complicated, there is a way to break that compound proposition into simpler component propositions by looking at how the connectives join them together into the compound proposition. That is what makes truth-functional connectives useful. They simplify the problem of determining the truth value of compound propositions.
Also (if you want to) can you guys explain what Nicholas means when he says "...this proposition has no internal structure..."?
Smith discussed three levels of internal structure.
- An argument has an internal structure made up of propositions.
- A compound proposition has an internal structure made up of other propositions and connectives studied in propositional logic.
- A basic proposition has an internal structure as well which is studied in predicate logic.
From the perspective of propositional logic the basic propositions can be viewed as having no internal structure that propositional logic studies.
Smith, N. J. (2012). Logic: The laws of truth. Princeton University Press.
Nicholas Smith defines the internal structure of arguments as propositions (page 23-4). He then breaks propositions, the internal structure of arguments, into two kinds.
Basic propositions which have no parts that are themselves propositions.
Compound propositions which are composed of other propositions and connectives between them.
Propositional logic studies the internal structure of compound propositions, but it does not concern itself with the internal structure of basic propositions, that is, it is not interested in the internal structure of basic propositions.
Predicate logic looks at the internal structure of basic propositions.
Here are the questions:
I don't really seem to be able to appreciate the usefulness of truth-functional connectives.
Truth-functional connectives allow one to study compound propositions in propositional logic. These connectives are part of the internal structure that breaks the compound proposition into component propositions and connectives. This is why they are useful.
Perhaps, I don't understand what he is saying in that paragraph, so I would appreciate any explanation of what he is trying to say and why truth-functional connectives are useful.
The truth or falsity of the compound proposition can be determined by examining the truth or falsity of its component propositions and by studying how they are related by the connectives joining those component propositions.
Instead of trying to determine the truth or falsity of a compound proposition, which might be complicated, there is a way to break that compound proposition into simpler component propositions by looking at how the connectives join them together into the compound proposition. That is what makes truth-functional connectives useful. They simplify the problem of determining the truth value of compound propositions.
Also (if you want to) can you guys explain what Nicholas means when he says "...this proposition has no internal structure..."?
Smith discussed three levels of internal structure.
- An argument has an internal structure made up of propositions.
- A compound proposition has an internal structure made up of other propositions and connectives studied in propositional logic.
- A basic proposition has an internal structure as well which is studied in predicate logic.
From the perspective of propositional logic the basic propositions can be viewed as having no internal structure that propositional logic studies.
Smith, N. J. (2012). Logic: The laws of truth. Princeton University Press.
edited 3 hours ago
answered 4 hours ago
Frank HubenyFrank Hubeny
9,69051553
9,69051553
add a comment |
add a comment |
MinigameZ more is a new contributor. Be nice, and check out our Code of Conduct.
MinigameZ more is a new contributor. Be nice, and check out our Code of Conduct.
MinigameZ more is a new contributor. Be nice, and check out our Code of Conduct.
MinigameZ more is a new contributor. Be nice, and check out our Code of Conduct.
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When its truth value only depends on truth values of its components, and not their meaning. For example, natural disjunction is not truth functional: "it will rain tomorrow or it will not rain tomorrow" holds today even though neither "it will rain tomorrow" nor "it will not rain tomorrow" have definitive truth values today.
– Conifold
7 hours ago