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A complete overview of Grasshopper Components can be found here: https://rhino.github.io/
Exercise A:
Premise: design Design a parametric cup. Create a definition to control height, top &and bottom radius and wall thickness through sliders.
- set Set basepoint in rhino and connect to grasshopper
- create Create sliders for heithheight, top &and bottom radius and wall thickness
- move Move (copy) the centerpoints centre points for the all circles but , except the lower outer radius
- subtract Subtract the wallthickness wall thickness for the inner circles
- create Create a loft (mind the order)
loft type (O) set to "straigtstraight" - create Create the bottom inner and outer surface with "boundary surface"
- join Join all surfaces
- "bake"
Exercise B: Working with attractors
Premise: Control the diameter of circles by the proximity to an object
- Create Create a "rectangular" grid
- control Control Size and Extend through sliders
- create Create circles on the intersection points (p)
- control Control the radius of the circles through the distance to a point set in rhino
use a division or mapping to adjust the scale
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- connect a mesh from rhino
- "deconstruct mesh"
- "deconstruct face"
- read out the edges through "list items"
Exercise D:
Creating 3D sine waves. Follow the grasshopper sketch to create either a sine or sinc wave in a 3D surface or solid.
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