Kasey N Stertz
  • home
  • about
    • biography
    • resume
    • Portfolio
    • exhibitions+press
  • sculpture
    • blaze
    • Bangkok, Thailand
    • Seattle, WA
    • 42.4'48", -75.58'12"
    • Skin Series
    • Digital Reconstruction
    • Artificial Reconstruction
    • Tree Replication
    • Gravity Pause
    • Bracket Insanity
    • Spike Wall
    • Un: Environment
  • columns
    • blaze
    • Amasa Back
    • SF North
    • Prototypes
  • architecture
    • Early Architecture
    • Unity Park, Haiti
    • Sears Tower Retrofit
    • Compass
    • Troost @ 46
  • design
    • Kenneth Spencer Research Library
    • Raptor Exhibit
    • Character Design
    • Digital Jewelry
  • skills
    • Sketching
    • Rhino 3D
    • Laser Systems
    • 3D Printing
    • Presentation
  • contact
  • home
  • about
    • biography
    • resume
    • Portfolio
    • exhibitions+press
  • sculpture
    • blaze
    • Bangkok, Thailand
    • Seattle, WA
    • 42.4'48", -75.58'12"
    • Skin Series
    • Digital Reconstruction
    • Artificial Reconstruction
    • Tree Replication
    • Gravity Pause
    • Bracket Insanity
    • Spike Wall
    • Un: Environment
  • columns
    • blaze
    • Amasa Back
    • SF North
    • Prototypes
  • architecture
    • Early Architecture
    • Unity Park, Haiti
    • Sears Tower Retrofit
    • Compass
    • Troost @ 46
  • design
    • Kenneth Spencer Research Library
    • Raptor Exhibit
    • Character Design
    • Digital Jewelry
  • skills
    • Sketching
    • Rhino 3D
    • Laser Systems
    • 3D Printing
    • Presentation
  • contact
Kasey N Stertz

Amasa Back

Displayed at 8th + Mass St in Lawrence, KS (April 2014 - April 2015)

Marine Grade Plywood, Steel, Bearings
Technology used: Rhino, CNC Machine, Aspire
2.5' x 2.5' x 8'
Created April 2014


“Amasa Back” is an interactive and transformative visual puzzle, centered upon public manipulation and the freedom of the work to present itself in infinite possible visual combinations. When initially installed, all of the rotating disks will be precisely in order and the puzzle solved. As interaction occurs, the form will change shape – never quite looking the same. The piece will always possess the ability to return to its initial state but as more and more people rotate the disks, the more difficult the puzzle will be to solve.
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