AIR
ALGORITHMIC SKETCHBOOK SHANE SIY CHA 657886
GRASSHOPPER EXPLORATIONS NOTES: This exploration was initially on lofting, but I decided to triangulate the model and pipe it. This later resulted to
the smooth edge disappearing after the triangulation
command has been connected. As I increased the radius, I noticed the pipe command becomes sharper in the ends reulting to the the pointy edges.
NOTES: Like the first one, this structure was mainly on lofting as
well. However, I decided to try different definitions such as the cone. However, what I found interesting about this was that I accidentally connected the middle curve to loft first, then the last, finally the first, which created 2
holes instead of just one. However, I still need work on
exploring how to make the cones actually connect to the surface.
GRASSHOPPER EXPLORATIONS NOTES: This was a normal loft command again, but instead I explored on biarc before lofting the model. After setting
the curves, I connected them to create Biacrs and lofted from there. I realised that there are many different ways to loft curves
NOTES: Similar to the first exercise we had in class, I had lines protruding out of the lofted surface, which I’ve later on
placed spheres in the end. I also realized that instead
of lines, I could actually use pipes to further explore
on what I could to this model. This just hows that one definition could create a whole new iteration of the
perviuos model. A problem i came upon here is that the spheres are not equally distributed. Some spheres are stuck to each other while others stay the same.
GRASSHOPPER EXPLORATIONS NOTES: I used the attraction point to create this model. I learned that you can actually make the attraction point either weaker or more powerful by playing around the domain
start and end’s range. Once you know how to create this definition, you could actually make multiple attraction points to a single model.