In this grasshopper definition by dividing a circle for the particles location and giving them forces by using the Kangaroo plugin we can simulate a collision of a series of marbles, inside a sphere.
In this Grasshopper definition, you can use the “Morph to twisted box” from the Pufferfish plugin to morph a 3D module into a target Nurbs surface. You can also use the “Tween two colors” to give the final results a colorful look.
In this grasshopper definition you can model a parametric sine wave surface and then use Paneling Tools to divide it into a grid and use a point attractor to deform the grid.
In this definition you can model a parametric surface which is basically controlled by a series of circles with different radiuses and locations. At the end you can have the sections for fabrication.
In this grasshopper definition you can model a simple parametric rotating mechanism. you can actually change the handle’s length , width and also control the rotation speed.
In this definition you can model a parametric fractal based on circles.In each step the circles scale down and cover a portion of the circle’s circumference.
In this definition you can model a parametric joint connection for a network of lines. The connection can be 3d printed and by defining sleeves for the pipes you can insert them in the nodes.
In this defintion you can model a parametric wave like structure and two waffle parts which can hold those sections together.
In this definition you can model a fractal based on a square which builds two smaller squares on one of its edges.
In this grasshopper definition by using the Parakeet Plugin you can model a radial scissor mechanism by defining the number of elements , width , size and also the radius of the holes which connect the elements together.
In this definition you can model a parametric 3D wall pattern based on scaling edges of a rectangle grid and also moving the center of these edges.
In this Grasshopper definition you can use the Anemone Plugin to rotate a tower around itself. First we will define the rotation and scaling factor and then we will extrude the base square to model the tower.
In this definition you can model a parametric Islamic Pattern which is based on connecting the center of Triangular grid to a point located on edges and then connect that point to their neighboring corner.
In this grasshopper definition you can make particles move through a Perlin noise effect made from Noise 4d Plugin and a loop which is generated by Anemone.
In this grasshopper definition by extracting points from a curve and using the Curve CNR component you can create a chain of circles on a defined curve.
In this grasshopper definition you can generate a parametric surface with different truchet patterns. By using Jitter to change the index of the Twisted boxes you can model different patterns
In this grasshopper definition by offsetting and scaling one of the Parakeet’s Tiling components (patterns) you can create different patterns. this grasshopper definition uses Parakeet and Weaverbird plugins.
In this grasshopper definition by creating relative tangent spheres which revolve around each other you can create different spirograph patterns in 3d space you can also use Dendro plugin to convert these complex curve to volume.
In this definition we have remodeled the Rising Chair by Robert van Embricqs in Grasshopper3d. First we have made a rectangle and then by two parametric curves the bending of the parts will be defined.
In this definition you can make a simple Waffle bookshelf without using any plugins, First, the 3d boxes are modeled based on thickness and depth and then the details are modeled in several steps.
In this definition we will use Perlin noise as the base deformation of a sphere. Perlin noise is a type of gradient noise developed by Ken Perlin in 1983.
In this definition we will use some geometrical transformations to model a 3d wall panel. First we will model the rectangles and then we will turn them in to 3d.
In this definition you can learn how to optimize a bounding box of a solid by using Galapagos and by rotating it around the x,y,z axis. Finally you can use a few simple commands to visualize some of the Data in the rhino viewport.
In this definition we have used the Mesh+ Thatch weave command to produce a parametric weave pattern on an untrimmed Nurbs surface.
In this definition we have made a pattern based on a rotating and scaling square grid which the center connects to the middle of the edges and then by following a geometrical algorithm we reach the final pattern.
In this definition we will use the node points of a series of geodesic lines to find the best plane for the cylindrecal connections.
In this definition we have used the Anemone plugin to model the Apolloian fractal. In mathematics, an Apollonian gasket or Apollonian net is a fractal generated starting from a triple of circles, each tangent to the other two, and successively filling in more circles, each tangent to another three.
This grasshopper definition is generated by putting simple scaling and rotating into a loop through Anemone Plugin, however it is quite different from the method that mathematician generate the Hilbert Curve fractal. A Hilbert curve is a continuous fractal space-filling curve.
In this definition a set of gene pools are used to create the main surface and then data tree has been used to extract three sets of curves to create the pattern.
In this grasshopper definition we will model an Erwin Hauer pattern based on the “Still Facing Infinity” exhibition.