I think you meant Q and no U. You can play QI which requires no U
Yes, you can spell "Q" without the "U" by simply using the letter "Q" itself. In some contexts, such as in certain words borrowed from other languages or in specific names, "Q" can appear without "U." However, in standard English spelling, "Q" is typically followed by "U."
Your spelling is pretty close :) but it is spelt ACQUAINTANCES It is pretty much spelt how it sounds, but you always have to remember the rule of putting a U after a Q. Hope this helped :)
The letter Q makes a (kw) sound when paired with U. Practically all Q words are QU words and have the (kw) sound. There is no silent U. Some words from other languages use Q without a U and may have either the (kw) sound or just a (k) sound. E.g. qoph (Hebrew letter) has the sound (kof)
hope u like it
its because of phonetics q always contains the sound of u. q isn't a full consonant it takes u with it. so while making words q is always accompanied by u
S U Q is True
There doesn't.
No English words end in Q, since Q is always followed by U.
'Q' is always followed by 'U' in English words.
Yes, it is true that either q is true or q is not true.
The U is generally a vowel in most circumstances, and U can rarely be a consonant. In English, the Q always needs a U afterwards and the Q can't be by itself. When you have a Q, it's always written as QU. The U after the Q is a consonant because Q can't be by itself in English. In other cases, U is generally a vowel.
Not sure I can do a table here but: P True, Q True then P -> Q True P True, Q False then P -> Q False P False, Q True then P -> Q True P False, Q False then P -> Q True It is the same as not(P) OR Q
that u may not feal what she or he going true but u will always be there for them
true or false = true
If p is true and q is false, p or q would be true. I had a hard time with this too but truth tables help. When using P V Q aka p or q, all you need is for one of the answers to be true. Since p is true P V Q would also be true:)
The statement "p if and only if q" is true when both p and q are true, or when both p and q are false.