A case in which a statement is not true can be illustrated by the statement "All birds can fly." This statement is false because there are bird species, such as ostriches and penguins, that are unable to fly. Thus, the existence of these flightless birds provides a clear counterexample that disproves the universal claim made in the statement.
In computing, this is an AND statement.
No, it is not a true statement. It is a false statement.
true
Yes, a statement can be true or false but without knowing what the statement is no-one can possibly say whether it is true or it is false.
Aquatic nuisance species are transported by riding on boats and trailers.
Aquatic nuisance species are transported by riding on boats and trailers.
TRUE
statement is true -ash (:
A case in which a statement is not true can be illustrated by the statement "All birds can fly." This statement is false because there are bird species, such as ostriches and penguins, that are unable to fly. Thus, the existence of these flightless birds provides a clear counterexample that disproves the universal claim made in the statement.
If the statement is false, then "This statement is false", is a lie, making it "This statement is true." The statement is now true. But if the statement is true, then "This statement is false" is true, making the statement false. But if the statement is false, then "This statement is false", is a lie, making it "This statement is true." The statement is now true. But if the statement is true, then... It's one of the biggest paradoxes ever, just like saying, "I'm lying right now."
Circular logic would be a statement or series of statements that are true because of another statement, which is true because of the first. For example, statement A is true because statement B is true. Statement B is true because statement A is true
In computing, this is an AND statement.
always true
always true
true
It is true.