pass the games all very well. everything must be collected!
Alternatively, use the New Game+ Function
KH4696 ANSWERED KEEP ROCKING
You can't get Tidus in Final Fantasy X-2 to begin with.
The Password is ACTW use them in capital letters only....... best of luck..............
here they are in order: Final Fantasy: Legend of the Crystals Final Fantasy: The Spirits Within Final Fantasy: Unlimited (TV Series) Final Fantasy VII Advent Children Last Order: Final Fantasy VII
by clicking the save button (.)(.) -__-
I would Suggest you play the previous games but you don't have to. All Final Fantasy games ( except X and X2) have a differant story completely independent of the others. the only thing that will be the same is a couple of characters Names (eg Cid, Wedge and Biggs). If your going to play FFX2 then i suggest you play X as it is a sequal.
As X-2 is now a somewhat old game, it may be a bit hard to find, but i'd recommed checking gamestop or any local gamestore. Then again, you've got the sure-fire eBay or amazon.
all Pokemon games have Pokemon, trainers, and ultiment rares all Pokemon games have Pokemon, trainers, and ultiment rares Who could forget the gym leaders and it always has the elite four There is also the story line, if you read the manga you see that the games are based of the mangas. All of the trainers are inspired by red. Also you always have a rival. ~Riack~:p
In a Cartesian Plane, it would be the middle point of a line. You get it with the formula: { [(x1+x2)/2], [(y1+y2)/2] { You will have to have two coordinates which will be the endings of the line.
Simplifying x2 + -2x + -63 Reorder the terms: -63 + -2x + x2 Factor a trinomial. (-7 + -1x)(9 + -1x) Final result: (-7 + -1x)(9 + -1x)
X2+Y3+15 All you can do is simplify it.
To solve the expression 2x2 times x2, we first simplify the multiplication of the coefficients: 2 x 2 = 4. Next, we multiply the variables with the same base (x) by adding their exponents: x2 x x2 = x(2+2) = x4. Therefore, the final answer is 4x4.
x2 + x2 + x2 = (1 + 1 + 1)x2 = 3x2