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Metro Car
Rotating Pond
Handmade Camshaft
The mechanism spins via a servo motor attachment.
This was the initial prototype built with corrugated cardboard. It didn't turn smoothly enough.
The mechanism spins via a servo motor attachment.
This was the initial prototype built with corrugated cardboard. It didn't turn smoothly enough.
The mechanism spins via a servo motor attachment.
This was the initial prototype built with corrugated cardboard. It didn't turn smoothly enough.
The mechanism spins via a servo motor attachment.
This was the initial prototype built with corrugated cardboard. It didn't turn smoothly enough.
The mechanism spins via a servo motor attachment.
This was the initial prototype built with corrugated cardboard. It didn't turn smoothly enough.
The mechanism spins via a servo motor attachment.
This was the initial prototype built with corrugated cardboard. It didn't turn smoothly enough.
The mechanism spins via a servo motor attachment.
This was the initial prototype built with corrugated cardboard. It didn't turn smoothly enough.
The mechanism spins via a servo motor attachment.
This was the initial prototype built with corrugated cardboard. It didn't turn smoothly enough.
The mechanism spins via a servo motor attachment.
This was the initial prototype built with corrugated cardboard. It didn't turn smoothly enough.
The mechanism spins via a servo motor attachment.
This was the initial prototype built with corrugated cardboard. It didn't turn smoothly enough.
The mechanism spins via a servo motor attachment.
This was the initial prototype built with corrugated cardboard. It didn't turn smoothly enough.
The mechanism spins via a servo motor attachment.
This was the initial prototype built with corrugated cardboard. It didn't turn smoothly enough.
The mechanism spins via a servo motor attachment.
This was the initial prototype built with corrugated cardboard. It didn't turn smoothly enough.
The mechanism spins via a servo motor attachment.
This was the initial prototype built with corrugated cardboard. It didn't turn smoothly enough.
The mechanism spins via a servo motor attachment.
This was the initial prototype built with corrugated cardboard. It didn't turn smoothly enough.
Cardboard Camshaft
I designed and handcrafted this cardboard camshaft that spins via a servo motor.
8 LEDs are programmed in sequence to create the illusion of movement.
This live photo I took of my friends inspired the piece.
The project looks cool in the dark as well.
This project is currently on display in the Bethesda KIDS Museum!
The Arduino, breadboard, and circuit that make the lighting operate.
8 LEDs are programmed in sequence to create the illusion of movement.
This live photo I took of my friends inspired the piece.
The project looks cool in the dark as well.
This project is currently on display in the Bethesda KIDS Museum!
The Arduino, breadboard, and circuit that make the lighting operate.
8 LEDs are programmed in sequence to create the illusion of movement.
This live photo I took of my friends inspired the piece.
The project looks cool in the dark as well.
This project is currently on display in the Bethesda KIDS Museum!
The Arduino, breadboard, and circuit that make the lighting operate.
8 LEDs are programmed in sequence to create the illusion of movement.
This live photo I took of my friends inspired the piece.
The project looks cool in the dark as well.
This project is currently on display in the Bethesda KIDS Museum!
The Arduino, breadboard, and circuit that make the lighting operate.
8 LEDs are programmed in sequence to create the illusion of movement.
This live photo I took of my friends inspired the piece.
The project looks cool in the dark as well.
This project is currently on display in the Bethesda KIDS Museum!
The Arduino, breadboard, and circuit that make the lighting operate.
Moving Metro Car
This piece was inspired by the current DC metro cars and the NY subway cars of the 70s/80s.
A potentiometer controls the lantern brightness and a button activates the inner gear mechanism.
The servo motor spins two handmade gears which turn the pond and duck.
A potentiometer controls the lantern brightness and a button activates the inner gear mechanism.
The servo motor spins two handmade gears which turn the pond and duck.
A potentiometer controls the lantern brightness and a button activates the inner gear mechanism.
The servo motor spins two handmade gears which turn the pond and duck.
A potentiometer controls the lantern brightness and a button activates the inner gear mechanism.
The servo motor spins two handmade gears which turn the pond and duck.
A potentiometer controls the lantern brightness and a button activates the inner gear mechanism.
The servo motor spins two handmade gears which turn the pond and duck.
A potentiometer controls the lantern brightness and a button activates the inner gear mechanism.
The servo motor spins two handmade gears which turn the pond and duck.
A potentiometer controls the lantern brightness and a button activates the inner gear mechanism.
The servo motor spins two handmade gears which turn the pond and duck.
A potentiometer controls the lantern brightness and a button activates the inner gear mechanism.
The servo motor spins two handmade gears which turn the pond and duck.
A potentiometer controls the lantern brightness and a button activates the inner gear mechanism.
The servo motor spins two handmade gears which turn the pond and duck.
A potentiometer controls the lantern brightness and a button activates the inner gear mechanism.
The servo motor spins two handmade gears which turn the pond and duck.
A potentiometer controls the lantern brightness and a button activates the inner gear mechanism.
The servo motor spins two handmade gears which turn the pond and duck.
A potentiometer controls the lantern brightness and a button activates the inner gear mechanism.
The servo motor spins two handmade gears which turn the pond and duck.
A potentiometer controls the lantern brightness and a button activates the inner gear mechanism.
The servo motor spins two handmade gears which turn the pond and duck.
A potentiometer controls the lantern brightness and a button activates the inner gear mechanism.
The servo motor spins two handmade gears which turn the pond and duck.
A potentiometer controls the lantern brightness and a button activates the inner gear mechanism.
The servo motor spins two handmade gears which turn the pond and duck.
Rotating Pond
This piece is made of cardboard, paper, wood, and clay. The button and potentiometer inputs are relayed through an arduino to produce outputs via an LED and servo motor.
The projects below combine principles of sculpture and electronic circuits to produce dynamic three dimensional pieces. The Metro Car piece is my first piece of art to be in a museum exhibition.
Electronics Projects
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