0/1000

ここに画像をドロップまたはペーストしてください

JPG, PNG, WEBP

アップロードされた画像は非表示です

より良い結果を得るには、詳細やネガティブプロンプトを追加してください

スタイル

53 styles

3D Business

Trending 3D renders for corporate use

Atoms solid liquid gas

A fluffy cloud made up of widely spaced gas molecules. The cloud has a soft, billowy texture, with light and airy formations. The gas molecules are depicted in a semi-transparent manner, allowing glimpses of the sky behind them. The overall color of the cloud is a pale white with hints of blue and gray, creating a delicate and light appearance.

Gas molecules are dispersing to form a thin veil of fog that blankets a landscape. This fog is gently rolling over the contours of hills and trees, obscuring some details while revealing silhouettes in the distance. The terrain features a mix of dense vegetation and open spaces, with the fog weaving through branches and creating a soft, ethereal atmosphere. The overall scene captures the delicate interplay between the fog and the natural elements of the landscape beneath it.

A close-up view of a metal pot on a stove, with liquid water inside beginning to evaporate. The surface of the water is rippling gently as small bubbles rise, indicating the transition from liquid to gas. The steam is visibly rising above the pot, creating a soft haze in the air. Light reflects off the water's surface, highlighting the clarity of the liquid. The pot is surrounded by the kitchen setting, with hints of the stove and kitchen utensils in the background.

A close-up view of a hot cup of coffee on a wooden table, with steam visibly rising from the surface of the coffee. The steam is depicted as swirling gas molecules, creating a gentle cloud above the cup. The coffee is a rich brown color, and the ceramic cup has a glossy finish, reflecting light. The background features a softly blurred kitchen setting, hinting at warmth and comfort. The steam rises in delicate wisps, illustrating the process of evaporation.

A kettle with a shiny silver surface is placed on a stovetop. It is emitting a steady stream of cloud-like gas molecules that are dispersing into the air above. The gas has a translucent, wispy appearance, gradually fading into the surrounding atmosphere. The kettle has a black handle and a spout from which the steam is rising. The background features a blurred kitchen setting with soft colors, suggesting warmth and activity. The steam creates a slight distortion in the air as it rises.

A close-up view of a transparent glass filled with a fizzy mixture. The glass contains a clear liquid with numerous small gas bubbles rising to the surface, creating a dynamic, effervescent effect. The bubbles vary in size, some being tiny and others larger. The liquid has a slight shimmer, reflecting light as it moves. The background features a soft gradient color that complements the transparency of the glass, enhancing the focus on the fizzy mixture within.

$Atoms arranged in a solid structure, forming a clear crystal with sharp edges and reflective surfaces. Each atom is displayed as a small sphere, tightly packed together, creating a geometric pattern that enhances the clarity of the crystal. The structure has an intricate design, showcasing symmetry and precision. Light refracts through the crystal, creating subtle reflections and highlights on its surface.$

A close-up view of liquid particles coming together to form a spherical raindrop. The raindrop has a shiny surface reflecting light, showcasing a gradient of colors from clear to slightly bluish at the edges. The liquid particles appear suspended in motion, with some clinging to the surface of the drop, creating a sense of fluidity. The background is softly blurred to emphasize the detailed texture of the raindrop, highlighting the intricate details of the particles as they converge.

A collection of liquid molecules is depicted in a flowing, wave-like pattern to represent ocean currents. The molecules are shown in shades of blue and teal, creating a dynamic visual effect. The wave-like formations are intertwined, illustrating the motion and energy of the ocean. Light reflects off the surface of the molecules, adding a sense of depth and fluidity to the scene. Each molecule appears distinct yet interconnected, showcasing the complexity of ocean dynamics.

A mountain, with a rugged surface composed of closely bonded atoms, rises majestically against the sky. The mountain's texture displays various shades of gray and brown, highlighting the different mineral compositions within its solid structure. Jagged peaks punctuate the skyline, while the slopes feature rocky outcrops and smooth sections, illustrating the intricacies of geological formation. Light casts shadows across the mountain, emphasizing the depth and contours of its massive form, creating a sense of grandeur and permanence.

A cluster of small molecules is depicted, each represented by spheres of various sizes, loosely connected by thin, transparent lines. These spheres are shown in shades of blue and clear, mimicking the appearance of a water droplet. The arrangement of the molecules creates an impression of movement, suggesting the fluidity of water. Some of the spheres are slightly overlapping, while others are spaced apart, enhancing the sense of dynamic flow within the droplet's structure. Light reflects off the surfaces of the molecules, adding a subtle shine to the visual representation.

A hexagonal arrangement of atoms is displayed, resembling a solid beehive structure. The atoms are represented as small spheres, tightly packed together, forming a three-dimensional grid. Each hexagonal cell is uniform in size, showcasing symmetry throughout the structure. The connections between the atoms are illustrated with thin lines, highlighting the bonds that create the stable formation. The overall composition gives a sense of intricate geometry and precision in the layout of the atomic arrangement.

Liquid particles in white color spreading and flowing as "milk" splashes into a "clear glass." The splashing motion creates arcs and droplets, with some particles forming a "white crown" shape at the top of the glass. The glass reflects light, highlighting the "smooth texture" of the liquid and the "translucent" qualities of the glass surface. The background is softly blurred to emphasize the dynamic movement of the milk entering the glass.

A close-up view of water molecules forming a rigid lattice structure within an ice cube. The ice cube features a crystalline appearance with defined edges and surfaces. The atoms are represented as small spheres, with oxygen atoms colored in red and hydrogen atoms in white. The arrangement of the molecules displays their hydrogen bonds, creating a geometric pattern that showcases the orderly formation of the ice. Subtle light reflections can be seen on the surface of the ice, emphasizing its transparency and the intricate details of the lattice.

An illustration features a close-up view of atoms arranged in a tightly packed, repeating crystal lattice structure. Each atom is represented as a small sphere, with varying colors to indicate different types of atoms. The spheres are connected by thin lines, symbolizing the bonds between them. The entire lattice extends uniformly in three dimensions, showcasing the orderly symmetry of the structure. The background has a soft gradient to highlight the intricate details of the lattice.

A close-up view of atoms arranged in a tight, hexagonal network, representing the solid state of ice. The atoms are depicted as small spheres, with oxygen atoms in blue and hydrogen atoms in white. The arrangement of the atoms shows a crystalline structure, with clear lines connecting them, illustrating the strong bonds within the solid ice lattice. The background is a light blue to enhance the icy theme.

A collection of atoms, each represented as small spheres, are widely spaced apart in an open space. The atoms are depicted in various colors, showcasing their different types. Each atom is shown moving rapidly in random directions, creating a dynamic scene. The movement is illustrated with motion lines extending from each atom, emphasizing their speed and randomness.

A clear glass perfume bottle, elegantly shaped, is positioned in the center of the image. The bottle is slightly open, with a delicate crystal stopper resting beside it. Surrounding the bottle, a multitude of small gas molecules, represented as tiny colored spheres, are dispersing into the air in various directions. Each sphere varies in size, creating a dynamic visual effect. The overall scene captures the process of diffusion as the gas molecules gradually spread out, transitioning from a concentrated cluster near the bottle to a more dispersed arrangement in the surrounding space.

A close-up view of molecules, depicted as small spheres, slightly apart and freely moving at the surface of a liquid pool. The liquid surface is reflecting light, creating small ripples around the molecules. The molecules vary in color, representing different types, with some being blue, green, and red. The background features the shimmering surface of the water, with light glinting off its waves.

A close-up view of carbon atoms in a solid diamond lattice structure. The image displays a series of interconnected atoms, with each carbon atom represented as a small sphere. The spheres are positioned at the vertices of the lattice, showcasing their symmetrical arrangement. The connections between the atoms are depicted as thin rods, illustrating the strong covalent bonds that form the crystal structure. Light reflects off the surfaces, highlighting the geometric precision of the diamond lattice.

A colorful balloon in the process of deflating, with gas molecules represented as small, translucent circles escaping from the balloon's opening. The surrounding area showcases the gas molecules dispersing into the air, gradually spreading out in various directions. The balloon itself is bright red, with a shiny surface and a slightly crumpled appearance, emphasizing the deflating process.

A close-up view of tightly packed atoms forming the dense and solid structure of iron. The image shows a three-dimensional lattice of spherical atoms, predominantly gray in color, with metallic luster. The arrangement reveals a tightly knit pattern, emphasizing the strength and stability of the iron structure. Light reflects off the surfaces of the atoms, creating highlights that enhance the depth of the image.

A cluster of liquid molecules represented as small spheres, each varying in color, densely packed together but still in motion. Some molecules are glowing slightly, indicating their dynamic energy. The spheres are in close proximity, with a few slightly overlapping, while others are flowing past one another smoothly. The arrangement creates a sense of movement and fluidity, as if the molecules are swirling and interacting in a lively dance. The background is a subtle gradient that enhances the vibrant colors of the molecules.

A close-up view of gas bubbles rising within a clear sparkling water. The bubbles are various sizes, reflecting light and creating small glimmers. The water is surrounded by a smooth, transparent liquid surface, emphasizing the clarity of the sparkling water. The background is softly blurred to draw attention to the bubbles and the shimmering effect they create as they move upward through the liquid.

A helium balloon, vibrant in color, is rising gracefully into the air. The balloon is gently inflated, showcasing a smooth surface that reflects light. Inside the balloon, gas molecules are depicted as tiny, dynamic spheres moving energetically, illustrating their expansion. The balloon is tethered by a string that descends, providing a sense of stability. In the background, the sky is bright and clear, with hints of fluffy clouds, emphasizing the balloon's ascent.

A close-up view of "liquid molecules" represented as vibrant blue and green spheres, moving swiftly along "the path of a flowing river". The river is depicted with clear water cascading over smooth stones, creating small ripples and splashes. Sunlight sparkles on the water's surface, highlighting the movement of the spheres as they flow seamlessly downstream. Wisps of foam are shown forming at various points, adding texture to the scene.

A clear balloon filled with gas molecules, showcasing the process of expansion. The balloon is slightly translucent, allowing the viewer to see numerous small, round gas molecules represented as tiny spheres, some clustered more closely together and others scattered further apart as the balloon expands. The balloon is depicted in a way that demonstrates its shape stretching outward, with slight reflections and highlights on its surface to indicate the tension of the material. The background is neutral, focusing attention on the balloon and the gas molecules inside.

A cluster of small, solid salt crystals displayed in a neat, ordered pattern. The crystals are clear with a slight shine, reflecting light in various directions. Each crystal has sharp edges and geometric shapes, resembling a precise arrangement of atoms. The overall structure is compact and well-defined, emphasizing the orderly nature of the salt formation.

A close-up view of numerous atoms compactly arranged to form the structure of a solid brick. The brick has a rectangular shape and is made up of a grid of tightly packed spheres, representing the atoms. The atoms are presented in varying shades of grey and brown, showcasing their density. The surrounding space is filled with a faint outline of additional atoms, hinting at their bonding within the brick structure. There is a subtle reflection on the surface of the brick, enhancing its solid appearance.

A scattered array of gas molecules, depicted as small, spherical shapes in various shades of blue and green, are positioned throughout the image. The molecules are shown with motion lines to indicate their rapid and random movement in different directions. Some molecules are closer together, while others are further apart, creating a sense of dynamic motion. The background is minimal, focusing attention on the molecules and their interactions.