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.
The statement is a corollary.
Oh, dude, that statement is totally false. I mean, like, everything can be debated, right? It's like saying pineapple doesn't belong on pizza – some people are gonna fight you on that one for sure. So yeah, the theme being static and not up for debate? Nah, that's a hard pass.
While the statement is true, there is no unit with that meaning.
a;; of the above are correct.
It means "most of the time", or "usually", and refers to the truth of a statement. The statement "As a general rule we hold our meetings on weekday evenings." means that the statement "We hold our meetings on weekday evenings" is usually true or true most of the time. There are exceptions where we meet on weekends or during the day, but mostly that statement is true.
true
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."
no each statement should have a reason/explanation for it to be true
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
They should contain as few words as possible