Prompt: a picture include 3 deformation procedure picture: 1) metal foam, 2) deformed metal foam, 3) metal
Prompt: The foam metal is deformed into a dense metal, that is, the holes in the middle of the original foam metal are compressed away
Prompt: The foam metal is deformed , dense metal, the holes in the middle of the original foam metal are pressed away, small holes, Metal, cool
Prompt: schematic illustrates transition zone of functionally graded material, the transition zone is varying continuously from one material to another , one object, clear and concise without words
Prompt: schematic illustrates transition zone of functionally graded material, which is varying from a metal material to another ceramics material
Prompt: The main body of the image is showing a computer process in which the image is processed to de-blur, where the image being processed by the computer is gridded
Prompt: The main body of the picture is to show a computer process in which the picture is processed to de-blur the picture, where the picture is gridded
Prompt: schematic illustrates transition zone of functionally graded material, the transition zone is varying continuously from one material to another ,clear and concise without words
Prompt: Draw a technologised picture showing a process of de-blurring the picture using computer techniques, where computer vision techniques are used and there is gridding of the picture
Prompt: Here are the newly generated images in a portrait orientation. These illustrate a 3D diagram of a down-filled fabric, deconstructed to clearly show four distinct layers, with particular attention to the central layer that is filled with down. The style of the images is similar to the provided reference, highlighting the intricate construction and layering.
Prompt: Evaluation and comparision of materials and methods used in 3D printing for housing construction by analyzing their evolution, properties, and environmental impact.
Prompt: The main body of the image shows a computer processing a picture to defuzzify it, where the picture being processed by the computer is gridded.
Prompt: 1. Tunneling nanoreactor 2. Engineered nanopipette technology 3. Cyt c encapsulated ZIF-8 nanoparticles
Prompt: Three-body lens 4: four-dimensional space Demonstrates the concept of four-dimensional space, where objects and space twist and deform in unimaginable ways.
Prompt: A split image showcasing, on one side, a complex 3D printed object alongside an advanced 3D printer, and on the other side, a beginner-friendly 3D printed object and a simple 3D printer.
Prompt: Draw a technologised picture showing a process of de-blurring the picture using computer techniques, where computer vision techniques are used and there is gridding of the picture,Focuses on the process of deblurring without the need for the character to appear in the image
Prompt: do not use people in picture :Discrete learning based Fast Rendering Method for Fuzzy Images seed:3725134659
Prompt: Based on the input of physical cluster information and model structure, the spatial modeling of load segmentation optimization is carried out, and the optimized segmentation deployment strategy is searched through multiple iterations of policy generation, policy application and performance simulation
Prompt: nop people about technology : Discrete learning based Fast Rendering Method for Fuzzy Images
Prompt: The gas flow is isentropic (that is, it has constant entropy, friction forces and dissipative losses are not taken into account) and adiabatic (that is, heat is not supplied or removed). The gas flow is stationary and one-dimensional, that is, at any fixed point of the nozzle, all flow parameters are constant in time and change only along the nozzle axis, and at all points of the selected cross section the flow parameters are the same, and the gas velocity vector is everywhere parallel to the symmetry axis of the nozzle. The gas mass flow rate is the same in all cross sections of the flow. The influence of all external forces and fields (including gravitational) is negligible. The symmetry axis of the nozzle coincides with the spatial coordinate
Style: Cinematic
Prompt: The gas flow is isentropic (that is, it has constant entropy, friction forces and dissipative losses are not taken into account) and adiabatic (that is, heat is not supplied or removed). The gas flow is stationary and one-dimensional, that is, at any fixed point of the nozzle, all flow parameters are constant in time and change only along the nozzle axis, and at all points of the selected cross section the flow parameters are the same, and the gas velocity vector is everywhere parallel to the symmetry axis of the nozzle. The gas mass flow rate is the same in all cross sections of the flow. The influence of all external forces and fields (including gravitational) is negligible. The symmetry axis of the nozzle coincides with the spatial coordinate
Style: Cinematic
