3d printing live dragons part ii

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  • 8/9/2019 3D Printing Live Dragons Part II

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    3D Printing Live Dragons Part IIAbstract: the neural functions of this dragon, are attained through mechanical or chemical processes, forgedeither by a device of chemicals and bone, or by a mechanized implant.Chapter I: neural mechanism of metalProgrammed to release ionized fluids -which are then cultured by the device within a second chamber- intothe tissue of the brain to hew wrinkles across its surface eliciting thought of contemplative nature, and tocontrol the body. Upon birth, the device begins testing each limb and function, controlling the creature inevery aspect; yet its control finds less impact once synapses begin to fire of their own volition, and true

    thought emerges.Chapter II: neural mechanism of boneThe more likely manner to produce success, is the initial: implanting a device of metal, whose wiles arecontrolled by logic and programming. Yet to allow for passage into new creatures upon birth, a device mustbe forged of bone, and as such this method utilizes the concept of first equipping the parent Drake with amechanized implant. Thus, upon impregnation, the Dragon must generate a second device capable of similarcontrol. Signals from the parent device use chemical paths to force cell division and movement, or to simplyrelocate cells cultured within a third chamber. These cells form an oval structure with three distinct chambers.The first, is bounded by a membrane whose pores allow a meager flow of ionized fluid to exit each hour, asthe valve across this membrane operates on a ponderous contraction, the membrane preventing aninundation of fluid once the aperture is ajar. This ionized fluid is directed to the channels across which itsmechanized counterpart would ordinarily send its own sea of ionized fluid to pierce the brain. Proximate, is

    the second chamber, which is similarly bounded by a membraneous web, yet this is designated for a farsimpler task: its own muscle ring arches to allow forth dopamine as time passes (to simulate normaldopamine levels within creatures of such size, electrical signal carried to the ring by bacterial veins andcords, to stimulate this sphincter), or once receptors upon the monsters tongue activate, allowing it to seekfood like most organisms, and enjoy the feast thereafter. The final sectioned fragment sends forth additionalchemicals on a time basis, sending forth levels of endorphins upon positive input by receptor activation,among other vital chemicals found within the healthy brain, simulating the ordinary quantities for a creature ofsuch scope, and allowing it a reward for each successful test of its abilities, or consumption of prey.

    tthew Lane Tuesday, January 20, 2015 at 10:59:20 AM Central Standard Time 70:cd:60:83:c1:d6