BioSci Principles

<img src="https://cms25.neocities.org/Double%20Diamond%20Images/QandClassmatesSSS.png" alt=""; width="40%"> Q is a Microbiology student working with a team of peers on a project. The group have been set a 3-hour practical session in a computer lab to design an innovative, microbe-based solution to improve water quality in low-resource or field environments. Their goal is to come up with something practical and safe to help detect or reduce contamination in water. This should be something that could inspire further research or real-world development. Use the entrepreneurship principles to help Q navigate these choices. ####What should Q do to start? There are lots of water filters out there. [[We could use an existing one and see if we can redesign it->BB]]. [[Let’s ask open-ended questions like->GB 1pt]] “Where are clean water challenges hardest? What makes contamination detection or removal most difficult in those places?”

<img src="https://cms25.neocities.org/Double%20Diamond%20Images/QThumbBBB.png" alt=""; width="30%"> Good idea. You’re applying the ''Beginner’s Mindset'' principle well, expressing curiosity and keeping the problem space open. --- The team begin gathering ideas. They discover that in many low-resource areas, water problems aren’t just about testing for contamination, sometimes the issue is that clean water isn’t available at all. They brainstorm situations where microbes could actually help with water rather than just indicate when it’s bad. Their research turns up some interesting facts: * Some bacteria naturally form biofilms that trap and channel moisture from the air. * Others secrete biosurfactants that make tiny droplets condense more easily — a process seen in dew formation on plant leaves or soil. * Microbes already inspire materials used in self-cleaning or water-harvesting surfaces. This sparks a new idea: “What if we could use microbial principles to capture clean water directly from the air, instead of only detecting contamination?” The team discuss potential directions for developing the concept. ####What should Q suggest? (Good Bird in the Hand) “We already understand how microbial films attract or channel water. [[Maybe we could explore a simple design that uses this principle, ->GBGB 1pt]] like a portable device that collects condensation using surfaces inspired by microbial biofilms.” (Bad Bird in the Hand) “How about a design where bacteria are engineered to actively produce fresh water? [[Our proposal could be for a synthetic-biology design ->GBBB]] that releases water droplets automatically.”

<img src="https://cms25.neocities.org/Double%20Diamond%20Images/Qthinkingss.png" alt=""; width="25%"> That’s a practical start. Many innovations build on existing devices. But by starting with a specific product, you risk narrowing the space of possibilities quickly. Another team member says “The ''Beginner’s Mindset'' encourages us to step back first and ask open questions, so we don’t miss other problems or contexts that might be even more impactful” and the team agrees to start there. --- The team begin gathering ideas. They discover that in many low-resource areas, water problems aren’t just about testing for contamination, sometimes the issue is that clean water isn’t available at all. They brainstorm situations where microbes could actually help with water rather than just indicate when it’s bad. Their research turns up some interesting facts: * Some bacteria naturally form biofilms that trap and channel moisture from the air. * Others secrete biosurfactants that make tiny droplets condense more easily — a process seen in dew formation on plant leaves or soil. * Microbes already inspire materials used in self-cleaning or water-harvesting surfaces. This sparks a new idea: “What if we could use microbial principles to capture clean water directly from the air, instead of only detecting contamination?” The team discuss potential directions for developing the concept. ####What should Q suggest? “We already understand how microbial films attract or channel water. [[Maybe we could explore a simple design that uses this principle, ->BBGB 1pt]] like a portable device that collects condensation using surfaces inspired by microbial biofilms.” “How about a design where bacteria are engineered to actively produce fresh water? [[Our proposal could be for a synthetic-biology design ->BBBB]] that releases water droplets automatically.”

<img src="https://cms25.neocities.org/Double%20Diamond%20Images/QandClassmatesHappyYYY2.png" alt=""; width="60%"> They call their idea //“''BioDew Drop'' - microbe-inspired, biomimetic device that collects clean water from the air.”// ####Their final submission includes: * A quick sketch prototype showing a wrinkled surface design inspired by Bacillus subtilis biofilms. * Simple modelling showing estimated condensation yields under different humidity levels. * A proposal for materials that mimic microbial textures using safe, recyclable polymers. * A section explaining how further research could test or scale the concept in field settings. ####They summarise their journey in their presentation: * They began with open curiosity and the Beginner’s Mindset, exploring multiple water challenges before narrowing their focus. * They applied Bird in the Hand, using their existing knowledge of microbial properties. * They used Affordable Loss to define a realistic idea they could develop without lab access. * They demonstrated Lemonade thinking by turning the failure of living biofilms into a biomimetic breakthrough. * Finally, they used Pilot in the Plane to move forward with limited data, showing initiative and practical problem-solving. They receive positive feedback: //“You’ve combined microbiological insight with entrepreneurial thinking. BioDew Drop shows creativity grounded in science and demonstrates how innovation can emerge even under tight constraints.” // ''Here is your completion code: BIO-EM-PRINCIPLES-4''

<img src="https://cms25.neocities.org/Double%20Diamond%20Images/QandClassmatesSSS.png" alt=""; width="40%"> They call their idea //“''BioDew Drop'' - microbe-inspired, biomimetic device that collects clean water from the air.”// ####Their final submission includes: * A quick sketch prototype showing a wrinkled surface design inspired by Bacillus subtilis biofilms. * Simple modelling showing estimated condensation yields under different humidity levels. * A proposal for materials that mimic microbial textures using safe, recyclable polymers. * A section explaining how further research could test or scale the concept in field settings. ####They summarise their journey in their presentation: * They began with open curiosity and the Beginner’s Mindset, exploring multiple water challenges before narrowing their focus. * They applied Bird in the Hand, using their existing knowledge of microbial properties. * They used Affordable Loss to define a realistic idea they could develop without lab access. * They demonstrated Lemonade thinking by turning the failure of living biofilms into a biomimetic breakthrough. * Finally, they used Pilot in the Plane to move forward with limited data, showing initiative and practical problem-solving. They receive positive feedback: //“You’ve combined microbiological insight with entrepreneurial thinking. BioDew Drop shows creativity grounded in science and demonstrates how innovation can emerge even under tight constraints.” // ''Here is your completion code: BIO-EM-PRINCIPLES-1''

<img src="https://cms25.neocities.org/Double%20Diamond%20Images/QThumbBBB.png" alt=""; width="30%"> Good use of the ''Bird in the Hand'' principle. You’re starting with the knowledge and resources you already have or that are easily available. --- The team now have a direction. They want to explore the potential for a portable, microbe-inspired water harvester. They now need to how to move forward with this idea. ####What might Q suggest? [[Let’s narrow our focus to the wrinkled biofilm texture of Bacillus subtilis,->GBGBGA 1pt]] which naturally traps and channels moisture. We are already familiar with this biofilm and we could model how a similar surface might enhance condensation using online humidity data. We can use this to prove our concept and suggest further research to look at different biofilms. [[We should gather more research on different bacterial species and biofilms ->GBGBBA]] so that we can suggest the best one to use.

<img src="https://cms25.neocities.org/Double%20Diamond%20Images/Qthinkingss.png" alt=""; width="25%"> Another team member says //“That’s an exciting idea, but we don’t have the knowledge to put together a practical proposal for genetic engineering. The ''Bird in the Hand'' principle means starting with what we already know and can use right now. I think we should explore an idea for a device that collects condensation inspired by microbial biofilms.”// The team agree to go with this suggestion. --- The team now have a direction. They want to explore the potential for a portable, microbe-inspired water harvester. They now need to how to move forward with this idea. ####What might Q suggest? [[Let’s narrow our focus to the wrinkled biofilm texture of Bacillus subtilis,->GBBBGA 1pt]] which naturally traps and channels moisture. We are already familiar with this biofilm and we could model how a similar surface might enhance condensation using online humidity data. We can use this to prove our concept and suggest further research to look at different biofilms. [[We should gather more research on different bacterial species and biofilms ->GBBBBA]] so that we can suggest the best one to use.

<img src="https://cms25.neocities.org/Double%20Diamond%20Images/QThumbBBB.png" alt=""; width="30%"> Good use of the ''Bird in the Hand'' principle. You’re starting with the knowledge and resources you already have or that are easily available. --- The team now have a direction. They want to explore the potential for a portable, microbe-inspired water harvester. They now need to how to move forward with this idea. ####What might Q suggest? [[Let’s narrow our focus to the wrinkled biofilm texture of Bacillus subtilis, ->BBGBGA 1pt]] which naturally traps and channels moisture. We are already familiar with this biofilm and we could model how a similar surface might enhance condensation using online humidity data. We can use this to prove our concept and suggest further research to look at different biofilms. [[We should gather more research on different bacterial species and biofilms ->BBGBBA]] so that we can suggest the best one to use.

<img src="https://cms25.neocities.org/Double%20Diamond%20Images/Qthinkingss.png" alt=""; width="25%"> Another team member says //“That’s an exciting idea, but we don’t have the knowledge to put together a practical proposal for genetic engineering. The ''Bird in the Hand'' principle means starting with what we already know and can use right now. I think we should explore an idea for a device that collects condensation inspired by microbial biofilms.”// The team agree to go with this suggestion. --- The team now have a direction. They want to explore the potential for a portable, microbe-inspired water harvester. They now need to how to move forward with this idea. ####What might Q suggest? [[Let’s narrow our focus to the wrinkled biofilm texture of Bacillus subtilis, ->BBBBGA 1pt]] which naturally traps and channels moisture. We are already familiar with this biofilm and we could model how a similar surface might enhance condensation using online humidity data. We can use this to prove our concept and suggest further research to look at different biofilms. [[We should gather more research on different bacterial species and biofilms ->BBBBBA]] so that we can suggest the best one to use.

<img src="https://cms25.neocities.org/Double%20Diamond%20Images/QandClassmatesSSS.png" alt=""; width="40%"> They call their idea //“''BioDew Drop'' - microbe-inspired, biomimetic device that collects clean water from the air.”// ####Their final submission includes: * A quick sketch prototype showing a wrinkled surface design inspired by Bacillus subtilis biofilms. * Simple modelling showing estimated condensation yields under different humidity levels. * A proposal for materials that mimic microbial textures using safe, recyclable polymers. * A section explaining how further research could test or scale the concept in field settings. ####They summarise their journey in their presentation: * They began with open curiosity and the Beginner’s Mindset, exploring multiple water challenges before narrowing their focus. * They applied Bird in the Hand, using their existing knowledge of microbial properties. * They used Affordable Loss to define a realistic idea they could develop without lab access. * They demonstrated Lemonade thinking by turning the failure of living biofilms into a biomimetic breakthrough. * Finally, they used Pilot in the Plane to move forward with limited data, showing initiative and practical problem-solving. They receive positive feedback: //“You’ve combined microbiological insight with entrepreneurial thinking. BioDew Drop shows creativity grounded in science and demonstrates how innovation can emerge even under tight constraints.” // ''Here is your completion code: BIO-EM-PRINCIPLES-2''

<img src="https://cms25.neocities.org/Double%20Diamond%20Images/Qthinkingss.png" alt=""; width="25%"> Another team member says //“The ''Affordable Loss'' principle encourages us not to chase maximum returns but to build and test ideas through small steps. The Bird in the Hand principle reminds us to work with what we already have. I think we should create a model based around Bacillus subtilis.”// The team agree with this suggestion. --- The team conduct more research into the Bacillus subtilis biofilm to try to understand how it might behave outside lab conditions. They find that: * The biofilm’s wrinkled, hydrophilic texture does help collect and retain small amounts of water. * However, the living biofilm is fragile. Sunlight, dust, and changing humidity quickly damage it. * Maintaining live microbial layers on a surface would require careful conditions, making it impractical for real-world water collection. The team realise that using a living microbial layer won’t work as they had hoped. ####What could Q suggest as a next step? “If living biofilms won’t survive outdoors, this idea isn’t going to work. [[We should probably scrap it and go back to our earlier concepts.”->GBGBBABL]] (Good Lemonade): “We could consider a biomimetic design instead. [[We could propose a surface that imitates the wrinkled structure of Bacillus subtilis but uses safe, non-living materials. ->GBGBBAGL 1pt]] That would make the idea more practical and easier to use in low-resource settings”

<img src="https://cms25.neocities.org/Double%20Diamond%20Images/QThumbBBB.png" alt=""; width="30%"> Good application of the ''Affordable Loss'' and ''Bird in the Hand'' principles. You are focusing your effort where it matters most and working within your means. --- The team conduct more research into the Bacillus subtilis biofilm to try to understand how it might behave outside lab conditions. They find that: * The biofilm’s wrinkled, hydrophilic texture does help collect and retain small amounts of water. * However, the living biofilm is fragile. Sunlight, dust, and changing humidity quickly damage it. * Maintaining live microbial layers on a surface would require careful conditions, making it impractical for real-world water collection. The team realise that using a living microbial layer won’t work as they had hoped. ####What could Q suggest as a next step? “If living biofilms won’t survive outdoors, this idea isn’t going to work. [[We should probably scrap it and go back to our earlier concepts.”->GBGBGABL]] “We could consider a biomimetic design instead. [[We could propose a surface that imitates the wrinkled structure of Bacillus subtilis but uses safe, non-living materials. ->GBGBGAGL 1pt]] That would make the idea more practical and easier to use in low-resource settings”

<img src="https://cms25.neocities.org/Double%20Diamond%20Images/QThumbBBB.png" alt=""; width="30%"> Good application of the ''Affordable Loss'' and ''Bird in the Hand'' principles. You are focusing your effort where it matters most and working within your means. --- The team conduct more research into the Bacillus subtilis biofilm to try to understand how it might behave outside lab conditions. They find that: * The biofilm’s wrinkled, hydrophilic texture does help collect and retain small amounts of water. * However, the living biofilm is fragile. Sunlight, dust, and changing humidity quickly damage it. * Maintaining live microbial layers on a surface would require careful conditions, making it impractical for real-world water collection. The team realise that using a living microbial layer won’t work as they had hoped. ####What could Q suggest as a next step? “If living biofilms won’t survive outdoors, this idea isn’t going to work. [[We should probably scrap it and go back to our earlier concepts.”->GBBBGABL]] “We could consider a biomimetic design instead. [[We could propose a surface that imitates the wrinkled structure of Bacillus subtilis but uses safe, non-living materials. ->GBBBGALM 1pt]] That would make the idea more practical and easier to use in low-resource settings”

<img src="https://cms25.neocities.org/Double%20Diamond%20Images/Qthinkingss.png" alt=""; width="25%"> Another team member says //“The ''Affordable Loss'' principle encourages us not to chase maximum returns but to build and test ideas through small steps. The Bird in the Hand principle reminds us to work with what we already have. I think we should create a model based around Bacillus subtilis.”// The team agree with this suggestion. --- The team conduct more research into the Bacillus subtilis biofilm to try to understand how it might behave outside lab conditions. They find that: * The biofilm’s wrinkled, hydrophilic texture does help collect and retain small amounts of water. * However, the living biofilm is fragile. Sunlight, dust, and changing humidity quickly damage it. * Maintaining live microbial layers on a surface would require careful conditions, making it impractical for real-world water collection. The team realise that using a living microbial layer won’t work as they had hoped. ####What could Q suggest as a next step? “If living biofilms won’t survive outdoors, this idea isn’t going to work. [[We should probably scrap it and go back to our earlier concepts.”->GBBBBABL]] “We could consider a biomimetic design instead. [[We could propose a surface that imitates the wrinkled structure of Bacillus subtilis but uses safe, non-living materials.->GBBBBAGL 1pt]] That would make the idea more practical and easier to use in low-resource settings”

<img src="https://cms25.neocities.org/Double%20Diamond%20Images/QThumbBBB.png" alt=""; width="30%"> Good application of the ''Affordable Loss'' and ''Bird in the Hand'' principles. You are focusing your effort where it matters most and working within your means. --- The team conduct more research into the Bacillus subtilis biofilm to try to understand how it might behave outside lab conditions. They find that: * The biofilm’s wrinkled, hydrophilic texture does help collect and retain small amounts of water. * However, the living biofilm is fragile. Sunlight, dust, and changing humidity quickly damage it. * Maintaining live microbial layers on a surface would require careful conditions, making it impractical for real-world water collection. The team realise that using a living microbial layer won’t work as they had hoped. ####What could Q suggest as a next step? “If living biofilms won’t survive outdoors, this idea isn’t going to work.[[ We should probably scrap it and go back to our earlier concepts.”->BBGBGABL]] “We could consider a biomimetic design instead. [[We could propose a surface that imitates the wrinkled structure of Bacillus subtilis but uses safe, non-living materials.->BBGBGAGL 1pt]] That would make the idea more practical and easier to use in low-resource settings”

<img src="https://cms25.neocities.org/Double%20Diamond%20Images/Qthinkingss.png" alt=""; width="25%"> Another team member says //“The ''Affordable Loss'' principle encourages us not to chase maximum returns but to build and test ideas through small steps. The Bird in the Hand principle reminds us to work with what we already have. I think we should create a model based around Bacillus subtilis.”// The team agree with this suggestion. --- The team conduct more research into the Bacillus subtilis biofilm to try to understand how it might behave outside lab conditions. They find that: * The biofilm’s wrinkled, hydrophilic texture does help collect and retain small amounts of water. * However, the living biofilm is fragile. Sunlight, dust, and changing humidity quickly damage it. * Maintaining live microbial layers on a surface would require careful conditions, making it impractical for real-world water collection. The team realise that using a living microbial layer won’t work as they had hoped. ####What could Q suggest as a next step? “If living biofilms won’t survive outdoors, this idea isn’t going to work. [[We should probably scrap it and go back to our earlier concepts.”->BBGBBABL]] “We could consider a biomimetic design instead. [[We could propose a surface that imitates the wrinkled structure of Bacillus subtilis but uses safe, non-living materials.->BBGBBAGL 1pt]] That would make the idea more practical and easier to use in low-resource settings”

<img src="https://cms25.neocities.org/Double%20Diamond%20Images/QThumbBBB.png" alt=""; width="30%"> Good application of the ''Affordable Loss'' and ''Bird in the Hand'' principles. You are focusing your effort where it matters most and working within your means. --- The team conduct more research into the Bacillus subtilis biofilm to try to understand how it might behave outside lab conditions. They find that: * The biofilm’s wrinkled, hydrophilic texture does help collect and retain small amounts of water. * However, the living biofilm is fragile. Sunlight, dust, and changing humidity quickly damage it. * Maintaining live microbial layers on a surface would require careful conditions, making it impractical for real-world water collection. The team realise that using a living microbial layer won’t work as they had hoped. ####What could Q suggest as a next step? “If living biofilms won’t survive outdoors, this idea isn’t going to work. [[We should probably scrap it and go back to our earlier concepts.”->BBBBGABL]] “We could consider a biomimetic design instead. [[We could propose a surface that imitates the wrinkled structure of Bacillus subtilis but uses safe, non-living materials.->BBBBGAGL 1pt]] That would make the idea more practical and easier to use in low-resource settings”

<img src="https://cms25.neocities.org/Double%20Diamond%20Images/Qthinkingss.png" alt=""; width="25%"> Another team member says //“The ''Affordable Loss'' principle encourages us not to chase maximum returns but to build and test ideas through small steps. The Bird in the Hand principle reminds us to work with what we already have. I think we should create a model based around Bacillus subtilis.”// The team agree with this suggestion. --- The team conduct more research into the Bacillus subtilis biofilm to try to understand how it might behave outside lab conditions. They find that: * The biofilm’s wrinkled, hydrophilic texture does help collect and retain small amounts of water. * However, the living biofilm is fragile. Sunlight, dust, and changing humidity quickly damage it. * Maintaining live microbial layers on a surface would require careful conditions, making it impractical for real-world water collection. The team realise that using a living microbial layer won’t work as they had hoped. ####What could Q suggest as a next step? “If living biofilms won’t survive outdoors, this idea isn’t going to work. [[We should probably scrap it and go back to our earlier concepts.”->BBBBBABL]] “We could consider a biomimetic design instead. [[We could propose a surface that imitates the wrinkled structure of Bacillus subtilis but uses safe, non-living materials.->BBBBBAGL 1pt]] That would make the idea more practical and easier to use in low-resource settings”

<img src="https://cms25.neocities.org/Double%20Diamond%20Images/Qthinkingss.png" alt=""; width="25%"> Another team member says //“Instead of abandoning the idea, what if we adapt it into something else? The ''Lemonade'' principle is about viewing surprises or setbacks as opportunities for innovation. We could consider a biomimetic design instead.” //The team agree to go with this suggestion. --- The team gather publicly available climate data to estimate potential condensation yields. They search for open-source humidity and temperature data to model potential water yields but can’t find much local data for the kinds of low-resource settings their idea targets. Time is running out, and they need to present their ideas soon. ####What could Q suggest they do? [[“Let’s present rough estimates based on general humidity levels and known condensation rates from similar projects.->GBGBGABLGP 1pt]] We can state our assumptions and suggest that further research is required for accurate data.” “If we can’t reference accurate data, this idea is going to seem unrealistic. [[Let’s keep searching for realistic data to use.”->GBGBGABLBP]]

<img src="https://cms25.neocities.org/Double%20Diamond%20Images/QThumbBBB.png" alt=""; width="30%"> Good application of the ''Lemonade'' principle. You’ve turned what seemed to be a flaw into an opportunity to create something new and useful. --- The team gather publicly available climate data to estimate potential condensation yields. They search for open-source humidity and temperature data to model potential water yields but can’t find much local data for the kinds of low-resource settings their idea targets. Time is running out, and they need to present their ideas soon. ####What could Q suggest they do? [[“Let’s present rough estimates based on general humidity levels and known condensation rates from similar projects.->GBGBGAGLGP 1pt]] We can state our assumptions and suggest that further research is required for accurate data.” “If we can’t reference accurate data, this idea is going to seem unrealistic. [[Let’s keep searching for realistic data to use.”->GBGBGAGLBP]]

<img src="https://cms25.neocities.org/Double%20Diamond%20Images/Qthinkingss.png" alt=""; width="25%"> Another team member says //“Instead of abandoning the idea, what if we adapt it into something else? The ''Lemonade'' principle is about viewing surprises or setbacks as opportunities for innovation. We could consider a biomimetic design instead.” //The team agree to go with this suggestion. --- The team gather publicly available climate data to estimate potential condensation yields. They search for open-source humidity and temperature data to model potential water yields but can’t find much local data for the kinds of low-resource settings their idea targets. Time is running out, and they need to present their ideas soon. ####What could Q suggest they do? [[“Let’s present rough estimates based on general humidity levels and known condensation rates from similar projects.->GBGBBABLGP 1pt]] We can state our assumptions and suggest that further research is required for accurate data.” “If we can’t reference accurate data, this idea is going to seem unrealistic. [[Let’s keep searching for realistic data to use.”->GBGBBABLBP]]

<img src="https://cms25.neocities.org/Double%20Diamond%20Images/QThumbBBB.png" alt=""; width="30%"> Good application of the ''Lemonade'' principle. You’ve turned what seemed to be a flaw into an opportunity to create something new and useful. --- The team gather publicly available climate data to estimate potential condensation yields. They search for open-source humidity and temperature data to model potential water yields but can’t find much local data for the kinds of low-resource settings their idea targets. Time is running out, and they need to present their ideas soon. ####What could Q suggest they do? [[“Let’s present rough estimates based on general humidity levels and known condensation rates from similar projects.->GBGBBAGLGP 1pt]] We can state our assumptions and suggest that further research is required for accurate data.” “If we can’t reference accurate data, this idea is going to seem unrealistic. [[Let’s keep searching for realistic data to use.”->GBGBBAGLBP]]

<img src="https://cms25.neocities.org/Double%20Diamond%20Images/QThumbBBB.png" alt=""; width="30%"> Good application of the ''Lemonade'' principle. You’ve turned what seemed to be a flaw into an opportunity to create something new and useful. --- The team gather publicly available climate data to estimate potential condensation yields. They search for open-source humidity and temperature data to model potential water yields but can’t find much local data for the kinds of low-resource settings their idea targets. Time is running out, and they need to present their ideas soon. ####What could Q suggest they do? [[“Let’s present rough estimates based on general humidity levels and known condensation rates from similar projects.->GBBBGALMGP 1pt]] We can state our assumptions and suggest that further research is required for accurate data.” “If we can’t reference accurate data, this idea is going to seem unrealistic. [[Let’s keep searching for realistic data to use.”->GBBBGALMBP]]

<img src="https://cms25.neocities.org/Double%20Diamond%20Images/Qthinkingss.png" alt=""; width="25%"> Another team member says //“Instead of abandoning the idea, what if we adapt it into something else? The ''Lemonade'' principle is about viewing surprises or setbacks as opportunities for innovation. We could consider a biomimetic design instead.” //The team agree to go with this suggestion. --- The team gather publicly available climate data to estimate potential condensation yields. They search for open-source humidity and temperature data to model potential water yields but can’t find much local data for the kinds of low-resource settings their idea targets. Time is running out, and they need to present their ideas soon. ####What could Q suggest they do? [[“Let’s present rough estimates based on general humidity levels and known condensation rates from similar projects.->GBBBGABLGP 1pt]] We can state our assumptions and suggest that further research is required for accurate data.” “If we can’t reference accurate data, this idea is going to seem unrealistic. [[Let’s keep searching for realistic data to use.” ->GBBBGABLBP]]

<img src="https://cms25.neocities.org/Double%20Diamond%20Images/Qthinkingss.png" alt=""; width="25%"> Another team member says //“Instead of abandoning the idea, what if we adapt it into something else? The ''Lemonade'' principle is about viewing surprises or setbacks as opportunities for innovation. We could consider a biomimetic design instead.” //The team agree to go with this suggestion. --- The team gather publicly available climate data to estimate potential condensation yields. They search for open-source humidity and temperature data to model potential water yields but can’t find much local data for the kinds of low-resource settings their idea targets. Time is running out, and they need to present their ideas soon. ####What could Q suggest they do? [[“Let’s present rough estimates based on general humidity levels and known condensation rates from similar projects.->GBBBBABLGP 1pt]] We can state our assumptions and suggest that further research is required for accurate data.” “If we can’t reference accurate data, this idea is going to seem unrealistic. [[Let’s keep searching for realistic data to use.”->GBBBBABLBP]]

<img src="https://cms25.neocities.org/Double%20Diamond%20Images/QThumbBBB.png" alt=""; width="30%"> Good application of the ''Lemonade'' principle. You’ve turned what seemed to be a flaw into an opportunity to create something new and useful. --- The team gather publicly available climate data to estimate potential condensation yields. They search for open-source humidity and temperature data to model potential water yields but can’t find much local data for the kinds of low-resource settings their idea targets. Time is running out, and they need to present their ideas soon. ####What could Q suggest they do? [[“Let’s present rough estimates based on general humidity levels and known condensation rates from similar projects.->GBBBBAGLGP 1pt]] We can state our assumptions and suggest that further research is required for accurate data.” “If we can’t reference accurate data, this idea is going to seem unrealistic. [[Let’s keep searching for realistic data to use.”->GBBBBAGLBP]]

<img src="https://cms25.neocities.org/Double%20Diamond%20Images/Qthinkingss.png" alt=""; width="25%"> Another team member says //“Instead of abandoning the idea, what if we adapt it into something else? The ''Lemonade'' principle is about viewing surprises or setbacks as opportunities for innovation. We could consider a biomimetic design instead.” //The team agree to go with this suggestion. --- The team gather publicly available climate data to estimate potential condensation yields. They search for open-source humidity and temperature data to model potential water yields but can’t find much local data for the kinds of low-resource settings their idea targets. Time is running out, and they need to present their ideas soon. ####What could Q suggest they do? [[“Let’s present rough estimates based on general humidity levels and known condensation rates from similar projects.->BBGBGABLGP 1pt]] We can state our assumptions and suggest that further research is required for accurate data.” “If we can’t reference accurate data, this idea is going to seem unrealistic. [[Let’s keep searching for realistic data to use.”->BBGBGABLBP]]

<img src="https://cms25.neocities.org/Double%20Diamond%20Images/QThumbBBB.png" alt=""; width="30%"> Good application of the ''Lemonade'' principle. You’ve turned what seemed to be a flaw into an opportunity to create something new and useful. --- The team gather publicly available climate data to estimate potential condensation yields. They search for open-source humidity and temperature data to model potential water yields but can’t find much local data for the kinds of low-resource settings their idea targets. Time is running out, and they need to present their ideas soon. ####What could Q suggest they do? [[“Let’s present rough estimates based on general humidity levels and known condensation rates from similar projects.->BBGBGAGLGP 1pt]] We can state our assumptions and suggest that further research is required for accurate data.” “If we can’t reference accurate data, this idea is going to seem unrealistic. [[Let’s keep searching for realistic data to use.”->BBGBGAGLBP]]

<img src="https://cms25.neocities.org/Double%20Diamond%20Images/Qthinkingss.png" alt=""; width="25%"> Another team member says //“Instead of abandoning the idea, what if we adapt it into something else? The ''Lemonade'' principle is about viewing surprises or setbacks as opportunities for innovation. We could consider a biomimetic design instead.” //The team agree to go with this suggestion. --- The team gather publicly available climate data to estimate potential condensation yields. They search for open-source humidity and temperature data to model potential water yields but can’t find much local data for the kinds of low-resource settings their idea targets. Time is running out, and they need to present their ideas soon. ####What could Q suggest they do? [[“Let’s present rough estimates based on general humidity levels and known condensation rates from similar projects.->BBGBBABLGP 1pt]] We can state our assumptions and suggest that further research is required for accurate data.” “If we can’t reference accurate data, this idea is going to seem unrealistic. [[Let’s keep searching for realistic data to use.”->BBGBBABLBP]]

<img src="https://cms25.neocities.org/Double%20Diamond%20Images/QThumbBBB.png" alt=""; width="30%"> Good application of the ''Lemonade'' principle. You’ve turned what seemed to be a flaw into an opportunity to create something new and useful. --- The team gather publicly available climate data to estimate potential condensation yields. They search for open-source humidity and temperature data to model potential water yields but can’t find much local data for the kinds of low-resource settings their idea targets. Time is running out, and they need to present their ideas soon. ####What could Q suggest they do? [[“Let’s present rough estimates based on general humidity levels and known condensation rates from similar projects.->BBGBBAGLGP 1pt]] We can state our assumptions and suggest that further research is required for accurate data.” “If we can’t reference accurate data, this idea is going to seem unrealistic. [[Let’s keep searching for realistic data to use.”->BBGBBAGLBP]]

<img src="https://cms25.neocities.org/Double%20Diamond%20Images/QThumbBBB.png" alt=""; width="30%"> Good application of the ''Lemonade'' principle. You’ve turned what seemed to be a flaw into an opportunity to create something new and useful. --- The team gather publicly available climate data to estimate potential condensation yields. They search for open-source humidity and temperature data to model potential water yields but can’t find much local data for the kinds of low-resource settings their idea targets. Time is running out, and they need to present their ideas soon. ####What could Q suggest they do? [[“Let’s present rough estimates based on general humidity levels and known condensation rates from similar projects.->BBBBGAGLGP 1pt]] We can state our assumptions and suggest that further research is required for accurate data.” “If we can’t reference accurate data, this idea is going to seem unrealistic. [[Let’s keep searching for realistic data to use.”->BBBBGAGLBP]]

<img src="https://cms25.neocities.org/Double%20Diamond%20Images/Qthinkingss.png" alt=""; width="25%"> Another team member says //“Instead of abandoning the idea, what if we adapt it into something else? The ''Lemonade'' principle is about viewing surprises or setbacks as opportunities for innovation. We could consider a biomimetic design instead.” //The team agree to go with this suggestion. --- The team gather publicly available climate data to estimate potential condensation yields. They search for open-source humidity and temperature data to model potential water yields but can’t find much local data for the kinds of low-resource settings their idea targets. Time is running out, and they need to present their ideas soon. ####What could Q suggest they do? [[“Let’s present rough estimates based on general humidity levels and known condensation rates from similar projects.->BBBBGABLGP 1pt]] We can state our assumptions and suggest that further research is required for accurate data.” “If we can’t reference accurate data, this idea is going to seem unrealistic. [[Let’s keep searching for realistic data to use.”->BBBBGABLBP]]

<img src="https://cms25.neocities.org/Double%20Diamond%20Images/Qthinkingss.png" alt=""; width="25%"> Another team member says //“Instead of abandoning the idea, what if we adapt it into something else? The ''Lemonade'' principle is about viewing surprises or setbacks as opportunities for innovation. We could consider a biomimetic design instead.” //The team agree to go with this suggestion. --- The team gather publicly available climate data to estimate potential condensation yields. They search for open-source humidity and temperature data to model potential water yields but can’t find much local data for the kinds of low-resource settings their idea targets. Time is running out, and they need to present their ideas soon. ####What could Q suggest they do? [[“Let’s present rough estimates based on general humidity levels and known condensation rates from similar projects.->BBBBBABLGP 1pt]] We can state our assumptions and suggest that further research is required for accurate data.” “If we can’t reference accurate data, this idea is going to seem unrealistic. [[Let’s keep searching for realistic data to use.”->BBBBBABLBP]]

<img src="https://cms25.neocities.org/Double%20Diamond%20Images/QThumbBBB.png" alt=""; width="30%"> Good application of the ''Lemonade'' principle. You’ve turned what seemed to be a flaw into an opportunity to create something new and useful. --- The team gather publicly available climate data to estimate potential condensation yields. They search for open-source humidity and temperature data to model potential water yields but can’t find much local data for the kinds of low-resource settings their idea targets. Time is running out, and they need to present their ideas soon. ####What could Q suggest they do? [[“Let’s present rough estimates based on general humidity levels and known condensation rates from similar projects.->BBBBBAGLGP 1pt]] We can state our assumptions and suggest that further research is required for accurate data.” “If we can’t reference accurate data, this idea is going to seem unrealistic. [[Let’s keep searching for realistic data to use.”->BBBBBAGLBP]]

<img src="https://cms25.neocities.org/Double%20Diamond%20Images/QThumbBBB.png" alt=""; width="30%"> Good use of the ''Pilot in the Plane'' principle. You’ve moved forward using the tools and information within your control. --- [[The team present their idea.->Perfect]]

<img src="https://cms25.neocities.org/Double%20Diamond%20Images/Qthinkingss.png" alt=""; width="25%"> Another team member says //“The ''Pilot in the Plane'' reminds us that we may never have perfect data but should move forward with what we have. Let’s present approximate data and be transparent about our assumptions.”// The team agrees with this suggestion. --- [[The team present their idea.->Good]]

<img src="https://cms25.neocities.org/Double%20Diamond%20Images/QThumbBBB.png" alt=""; width="30%"> Good use of the ''Pilot in the Plane'' principle. You’ve moved forward using the tools and information within your control. --- [[The team present their idea.->Good]]

<img src="https://cms25.neocities.org/Double%20Diamond%20Images/Qthinkingss.png" alt=""; width="25%"> Another team member says //“The ''Pilot in the Plane'' reminds us that we may never have perfect data but should move forward with what we have. Let’s present approximate data and be transparent about our assumptions.”// The team agrees with this suggestion. --- [[The team present their idea.->Good]]

<img src="https://cms25.neocities.org/Double%20Diamond%20Images/QThumbBBB.png" alt=""; width="30%"> Good use of the ''Pilot in the Plane'' principle. You’ve moved forward using the tools and information within your control. --- [[The team present their idea.->Good]]

<img src="https://cms25.neocities.org/Double%20Diamond%20Images/Qthinkingss.png" alt=""; width="25%"> Another team member says //“The ''Pilot in the Plane'' reminds us that we may never have perfect data but should move forward with what we have. Let’s present approximate data and be transparent about our assumptions.”// The team agrees with this suggestion. --- [[The team present their idea.->Good]]

<img src="https://cms25.neocities.org/Double%20Diamond%20Images/QThumbBBB.png" alt=""; width="30%"> Good use of the ''Pilot in the Plane'' principle. You’ve moved forward using the tools and information within your control. --- [[The team present their idea.->Good]]

<img src="https://cms25.neocities.org/Double%20Diamond%20Images/Qthinkingss.png" alt=""; width="25%"> Another team member says //“The ''Pilot in the Plane'' reminds us that we may never have perfect data but should move forward with what we have. Let’s present approximate data and be transparent about our assumptions.”// The team agrees with this suggestion. --- [[The team present their idea.->OK]]

<img src="https://cms25.neocities.org/Double%20Diamond%20Images/QThumbBBB.png" alt=""; width="30%"> Good use of the ''Pilot in the Plane'' principle. You’ve moved forward using the tools and information within your control. --- [[The team present their idea.->Good]]

<img src="https://cms25.neocities.org/Double%20Diamond%20Images/Qthinkingss.png" alt=""; width="25%"> Another team member says //“The ''Pilot in the Plane'' reminds us that we may never have perfect data but should move forward with what we have. Let’s present approximate data and be transparent about our assumptions.”// The team agrees with this suggestion. --- [[The team present their idea.->Good]]