noun a term used in science fiction to describe an object or technology that is physically possible or feasible
Engineers use physibles to design and simulate physical components or systems before actual production or construction.
Physibles are used in manufacturing processes to produce prototypes, parts, and products using additive manufacturing technologies.
Physibles play a crucial role in product development by enabling rapid prototyping and iteration of designs.
In the field of 3D printing, a physible refers to a digital file that contains data for creating a physical object using a 3D printer.
In digital design, physibles are digital representations of physical objects that can be manipulated and optimized for various purposes.
In engineering, 'physible' is used to refer to a digital file that contains information to create a physical object using a 3D printer or other manufacturing technology.
Architects may use 'physible' to share design files with clients or collaborators for 3D printing or prototyping purposes.
Product designers often create physible files to communicate their design concepts and facilitate the manufacturing process.
In the field of biomedical science, 'physible' may be used to create custom medical devices or models for research and educational purposes.
Fashion designers may use physible files to produce prototypes and samples of their designs using 3D printing technology.
Industrial designers use physible files to create prototypes and models of products for testing and evaluation before mass production.
In game development, physible files can be used to create physical props or models for use in promotional materials or events related to the game.
Educators can use physible files to teach students about digital design, prototyping, and manufacturing processes in various fields.
Medical engineers may utilize physible files to design and produce custom medical devices or implants for patients.
Artisans can use physible files to create unique and intricate pieces of art or jewelry using advanced manufacturing techniques.