As mathematical proof explains the argument of a math statement, the Proof Light is named as its visible mechanisms which explain its rotating function. This pendant lamp is spun remotely by rotation of the cable it hangs from, meaning users can rotate the lamp to project illumination on different parts of the room. The effect in practice is both a pleasant tactile experience, as well as a channeling of the user’s focus, compelling people to illuminate and appreciate small areas as if they were independent spaces themselves.
As mathematical a proof explains the argument of a math statement, the Proof Light's visible and connected mechanisms spell out its rotating function. The Proof lamp is spun remotely by the rotation of the cable it hangs from, meaning users can turn the lamp to project illumination on different parts of the room. The effect in practice is both a pleasant tactile experience, as well as a channeling of the user’s focus, illuminating small areas as if they were independent spaces themselves.
As mathematical a proof explains the argument of a math statement, the Proof Light's visible and connected mechanisms spell out its rotating function. The Proof lamp is spun remotely by the rotation of the cable it hangs from, meaning users can turn the lamp to project illumination on different parts of the room. The effect in practice is both a pleasant tactile experience, as well as a channeling of the user’s focus, illuminating small areas as if they were independent spaces themselves.