The instant I saw the chain strand, DNA popped in my head. OF COURSE!! I guess you guys had the same idea. Fantastic as always, now I guess I don't have to figure it out myself, I will let the experts take care of it.
I keep seeing people use this to do things along plain old continuous lines, but go check out what happens when you convert a geometry to beziers or nurbs and use that instead. It's like the Tissue add-on for blender almost. You have to append it with a boolean union to cleanup the overlaps but its great besides that
The instant I saw the chain strand, DNA popped in my head. OF COURSE!! I guess you guys had the same idea. Fantastic as always, now I guess I don't have to figure it out myself, I will let the experts take care of it.
I keep seeing people use this to do things along plain old continuous lines, but go check out what happens when you convert a geometry to beziers or nurbs and use that instead. It's like the Tissue add-on for blender almost. You have to append it with a boolean union to cleanup the overlaps but its great besides that
Nice technique - Thanks for sharing! Cheers, Mo
where can i download dna basepair?
you're learning Houdini but you can't slap a few spheres together?
Thanks a lot! But what can we do to make it possible to build DNA from 4 different base pairs (not just one) that are randomly mixed?
Yes, Just take the randomization technique from the pt.7 video and apply it to your different base pairs. Cheers, Mo
@@Entagma Thank you! You are amazing!