Absorbtion visual enhancements?
Posted: Sat Aug 15, 2009 5:09 pm
Hello, I preordered.
Looks interesting but it seemed like the absorption of smaller bubbles was less graphically interesting than could have been?
After watching the video seems that it would be nice if the particles within (at least my) bubble would swirl around briefly at the contact/absorption spot spot and less so throughout entire bubble when contact/absorption occurred. Bigger absorption = more swirling. The smaller bubbles color particles could be briefly incorporated in my larger bubbles particles and then fade to my color. Also, it seems as it you simultaneously touched 2 red bubbles (where the combined reds were greater in mass than your single bubble) that something special might occur? 1) No absorption occurs, 2) Repulsed away with no absorption, 3) the reds both steal part of your bubble, 4) ... ?
And/Or my bubble and/or opponent bubble wiggles like Jello while merging.
And/Or when absorbed bubble is closer to my size then appears to resist or gets absorbed more slowly than a small one would.
Thanks
Looks interesting but it seemed like the absorption of smaller bubbles was less graphically interesting than could have been?
After watching the video seems that it would be nice if the particles within (at least my) bubble would swirl around briefly at the contact/absorption spot spot and less so throughout entire bubble when contact/absorption occurred. Bigger absorption = more swirling. The smaller bubbles color particles could be briefly incorporated in my larger bubbles particles and then fade to my color. Also, it seems as it you simultaneously touched 2 red bubbles (where the combined reds were greater in mass than your single bubble) that something special might occur? 1) No absorption occurs, 2) Repulsed away with no absorption, 3) the reds both steal part of your bubble, 4) ... ?
And/Or my bubble and/or opponent bubble wiggles like Jello while merging.
And/Or when absorbed bubble is closer to my size then appears to resist or gets absorbed more slowly than a small one would.
Thanks