A) A method of manual engineering calculations. B) A tool for physical prototyping without using any software. C) A technique for hand-drawing engineering diagrams. D) A process that uses computer software to simulate product design and performance.
A) Microsoft Word B) Adobe Photoshop C) AutoCAD D) ANSYS
A) Fluent Energy Assessment B) Finite Element Analysis C) Feature Extraction Algorithm D) Fundamental Engineering Accreditation
A) To test the tensile strength of materials. B) To analyze customer preferences for fluid products. C) To create artistic visualizations for marketing purposes. D) To optimize the design of components such as pipes and valves.
A) Coupled Friction Detection B) Computational Fluid Dynamics C) Complex Finite Differentiation D) Computerized Feature Design
A) By speeding up the physical manufacturing process. B) By increasing the cost of each physical prototype. C) By disregarding simulation results altogether. D) By allowing virtual testing and iteration before building physical models.
A) Central Analysis Directory B) Computer-Aided Design C) Customer Application Documentation D) Computational Algorithm Database
A) By stifling creativity due to software limitations. B) By repeating traditional design processes. C) By discouraging iteration and improvement. D) By enabling rapid testing of new concepts and ideas.
A) It increases the reliance on physical prototypes. B) It limits the design possibilities available to engineers. C) It allows for faster and more accurate product development. D) It excludes non-engineering professionals from the design process. |