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Selectively permeable

A beaker filled with two distinct liquids, one colored blue and the other colored yellow, positioned adjacent to a selectively permeable membrane. The membrane is displayed vertically in the center of the beaker, partially submerged in both liquids. Bubbling and foaming occur at the interface of the two liquids, indicating a chemical reaction taking place. Bubbles of gas are rising through the yellow liquid, while small droplets of the blue liquid can be seen merging with the yellow at the membrane.An aquarium setting featuring a filter system prominently in the foreground. The filter is depicted with various components, including tubes and selectively permeable membranes. Water flows through the membranes, visibly cleaning as it passes. The aquarium is filled with aquatic plants and rocks providing a natural habitat. Several colorful fish swim around, interacting with the environment while the filter system works efficiently in the background, creating a scene of aquatic life in motion.A transparent container filled with various food items such as colorful fruits, leafy greens, and chopped vegetables. The container has a lid made of a selectively permeable film that appears slightly glossy, allowing a glimpse of the fresh contents inside. The fruits include bright red strawberries, yellow bananas, and green apples. The leafy greens are vibrant and crisp, while the chopped vegetables display a mix of orange carrots, purple bell peppers, and yellow corn. The container is placed on a wooden kitchen table, with a few droplets of condensation visible on the inside of the film, emphasizing the freshness of the food.A scientist in a lab coat is standing at a laboratory bench, closely observing an experiment involving a selectively permeable membrane. The scientist has glasses perched on their nose and a focused expression. In front of them, there is a large beaker filled with a clear liquid, next to several test tubes held in a rack. Each test tube contains different colored solutions, and a small digital thermometer is placed nearby. On the bench, there are notes and a pen, alongside a microscope in the background. The lab is well-organized with shelves filled with additional laboratory equipment.An aquatic scene set in a pond. There are various fish swimming gracefully among lush water plants, creating a sense of harmony. A selectively permeable barrier is visible, partially submerged in the water, separating different areas of the pond. The barrier features intricate textures that interact with both the fish and the plants, illustrating the flow of water and nutrients. The plants have long, flowing leaves that sway gently with the movement of the water, adding depth to the scene.A natural scene depicting a lush ecosystem. In the foreground, a variety of plants with intricate leaf structures are shown, each interacting with the surrounding soil. A deer grazes peacefully nearby, carefully selecting tender shoots to eat. A squirrel climbs up a tree trunk, gathering acorns, while a bird perches on a branch, observing its surroundings. In the background, a small stream flows gently, with stones visible beneath the water's surface. A frog is seated on a lily pad, blending in with the flora. The scene captures the delicate balance of life within this vibrant ecosystem.A close-up view of various oil droplets in different sizes suspended in clear water. The droplets vary in color, including shades of yellow, blue, and green, creating a striking contrast against the transparent water. Light reflects off the surfaces of the droplets, highlighting their spherical shapes. Some droplets cluster together while others remain isolated. The background is filled with soft ripples, emphasizing the movement of the water around the droplets. The scene captures the concept of selective permeability visually by showcasing the distinct separation between the oil and water.An urban landscape featuring a series of tall buildings with sleek, glass exteriors that have a subtle texture resembling a selectively permeable membrane. The buildings are positioned close together, casting shadows on the street below. Large, rounded windows are present throughout the structures, allowing natural light to filter inside while maintaining a barrier against visible pollutants. Green plants are integrated onto the balconies and rooftops, creating a vibrant contrast against the architecture. The scene captures a clear blue sky, enhancing the overall brightness of the environment.A close-up illustration of a plant root with a selectively permeable membrane. The root structure shows fine root hairs extending into the soil. Various nutrients, represented as colorful, small spheres, are actively moving through the membrane into the root cells. The membrane itself is a translucent barrier that highlights the process of absorption. Soil particles surround the root, and there are tiny droplets of water nearby to indicate the moist environment.A large water treatment facility with multiple structures, including storage tanks and processing units. The facility features a series of selectively permeable membranes, prominently displayed within the system, showcasing their role in purifying water. Various pipes and valves are visible, conveying water through the treatment process. Surrounding the facility, there are green spaces with trees and grass, creating a contrast with the industrial elements. The sky is clear and blue, adding to the overall clarity of the scene.A vibrant, close-up view of a microscopic world filled with various types of cells is depicted. In the center, a large animal cell with a round shape showcases a "selectively permeable membrane" that is semitransparent and exhibits a gradient of colors. Surrounding the central cell are smaller cells, including a plant cell with a rectangular shape and a cell wall, as well as a bacteria cell with a rounded shape. Each cell has distinct internal structures visible, such as nuclei and organelles, which are vibrantly colored. The background features a fluidic, gradient design that conveys movement through this microscopic landscape, enhancing the feeling of a journey.A farmer with tanned skin and a straw hat is standing in a green field while spraying a selective pesticide from a yellow spray canister. The farmer is wearing a light blue shirt with rolled-up sleeves and dark green overalls. The pesticide is dispersing in a fine mist, visibly targeting small pests on the leaves of crops. A few leaves are shown with droplets of the pesticide on them, highlighting the interaction with their surfaces. The background features rows of vibrant green crops under a clear blue sky, emphasizing the agricultural setting.A health science classroom is filled with various educational materials. In the center, there are tables with students examining models of selectively permeable membranes. Each model is detailed, showcasing the structure and functions of the membranes. On the walls, diagrams illustrate cellular processes and the movement of substances across membranes. There is a whiteboard at the front of the room covered with notes and drawings related to membrane biology. Students are engaged in discussions, pointing at the diagrams, and taking notes in their notebooks. A large window lets in natural light, illuminating the workspace.A detailed close-up of a plant cell showcasing the "selectively permeable cell wall" surrounding it. The cell wall is depicted in a textured manner, exhibiting its rigid structure. Surrounding the cell wall, there are various "substances" such as "water molecules," "nutrients," and "ions" represented in different colors and sizes to indicate their varying properties. The interior of the cell reveals "chloroplasts," "mitochondria," and "cytoplasm," all rendered with clarity to highlight their respective functions. The entire composition emphasizes the complex interactions between the cell wall and the substances in its environment.A detailed illustration of a bacterial cell is displayed, featuring a prominently highlighted "selectively permeable membrane" that outlines the cell's structure. The cell is portrayed in a vibrant color palette to contrast against a "dark background." The membrane's texture is shown with intricate details, including various proteins embedded within it. Inside the cell, there are visible organelles such as ribosomes and a nucleoid region, all rendered with accuracy and clarity.A 3D icon of human skin displaying layers including the epidermis, dermis, and hypodermis. The illustration features arrows indicating the selective permeability of the skin to various substances. There are small representations of water molecules, salts, and larger molecules attempting to penetrate through the skin barrier. The icon includes labels for each layer and the substances, enhancing the educational aspect of the depiction. The skin texture is detailed, showcasing hair follicles and sweat glands in the design.A cross-section of a fruit is displayed, revealing the internal structure of the cells. Each cell is depicted with a clearly defined cell membrane surrounding it. Within the cells, there are visible sugar molecules represented as small shapes. The cell membrane showcases numerous pores, illustrating how it selectively allows these sugar molecules to enter. The fruit's outer skin is textured, adding to the realism of the cross-section. The background is minimal to emphasize the fruit's anatomy and cellular details.A detailed illustration depicts a selectively permeable membrane submerged in water. On one side of the membrane, colored dye is beginning to diffuse, creating a gradient effect as it spreads. The dye particles can be seen moving in various directions, with some clustering near the membrane while others are further away. The water surrounding the membrane is calm, with small ripples indicating movement. The membrane itself has a textured surface, providing contrast to the smooth flow of the liquid.A group of three children is conducting a science experiment. Two of the children, a boy and a girl, are standing next to a table. They are focused on a "selectively permeable bag" filled with "colored water". The bag is partially submerged in a clear container filled with more "colored water". The third child, a girl with glasses, is taking notes on a clipboard while observing the experiment. The table is cluttered with various science supplies, including beakers and pipettes. Brightly colored liquids are visible in the background, and a poster on the wall illustrates the concept of "osmosis".A large, detailed 3D model of a selectively permeable membrane is displayed prominently on a science fair table. The membrane features various components, including pores and proteins, visually illustrating its complex structure. Two students, one with short brown hair and wearing a blue lab coat, and the other with long black hair in a ponytail and wearing a white T-shirt, stand beside the model. The student in the blue lab coat is pointing at the membrane, while the other student is holding a notepad, taking notes. Around them, there are colorful posters explaining the function of the membrane, featuring diagrams and labels. The science fair table is covered with a green tablecloth, and there are several other science projects visible in the background.A family is gathered around a kitchen table, engaged in a household experiment. The table is covered with various kitchen materials, including a large bowl filled with water, a few clear containers, and some kitchen utensils. The family members, consisting of two adults and two children, are actively discussing the experiment. One child is pouring a colored liquid into one of the containers, while the other child is observing closely, holding a notepad and pencil to take notes. The adults are pointing at the containers, explaining the concept of selective permeability. In the background, there are kitchen appliances and a window allowing natural light to illuminate the scene.A diagram depicting an animal cell with a clearly outlined "selectively permeable membrane" label. The cell is depicted in a circular shape, with various organelles such as a nucleus, mitochondria, endoplasmic reticulum, and Golgi apparatus illustrated in distinct colors. Each organelle is labeled with clear text, and the cell membrane is highlighted to emphasize its importance. The background is a light pastel color to enhance visibility.A vibrant depiction of "ATP molecules" in bright colors, showcasing their structure with three phosphate groups. The scene illustrates "substances" being actively transported across a "selectively permeable membrane" represented as a bilayer with embedded proteins. "ATP" is shown releasing energy, indicated by glowing orbs, as it powers the transport process. The background includes dynamic movement lines to emphasize energy and activity within the scene.An illustration showing two cells, one is a larger cell with a round shape and a smooth surface, while the other is a smaller, oval-shaped cell with a textured surface. They are positioned close together under a microscope, showcasing their "selectively permeable membranes." The membranes are highlighted, emphasizing their semi-permeable nature. Surrounding the cells is a fluid medium, with small particles representing substances moving between the membranes. The background includes a grid pattern typical of a microscope view.A colorful infographic illustrating different types of transport across a selectively permeable membrane. The infographic includes labeled sections for "Diffusion" and "Osmosis," showcasing arrows to indicate the movement of molecules. Various icons are displayed, such as small circles representing solute particles and water molecules, illustrating their pathways through the membrane. The background features a gradient of pastel colors, enhancing the visual appeal, while key terms are highlighted in bold text.A vibrant illustration of a cell membrane with animated transport mechanisms. The membrane is depicted as a double-layered structure, with various transport proteins embedded within it. On one side, molecules such as sugars and ions are shown moving towards the membrane, while on the other side, they are entering the cell through the proteins. Arrows indicate the direction of movement, highlighting the process of facilitated diffusion. The background features a lively depiction of the cell's interior, filled with colorful organelles like mitochondria and the nucleus, creating a sense of dynamic activity.A close-up view of several water molecules, represented as small, round shapes with connected hydrogen and oxygen atoms, passing through a selectively permeable membrane. The membrane appears as a semi-transparent barrier with tiny pores allowing the water molecules to move through. In the background, a vibrant blue hue fills the space, creating a dynamic environment. The water molecules are shown in motion, with some on one side of the membrane and others transitioning through the pores.
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