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Difference between revisions of "The TSoG Community"

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Garland, Texas, USA~Garland, Texas~7 community members.~3 Purple Pins.png;
 
Garland, Texas, USA~Garland, Texas~7 community members.~3 Purple Pins.png;
Austin, Texas, USA~Austin, Texas~2 community members.~2 Purple Pins.png;
+
Austin, Texas, USA~Austin, Texas~3 community members.~3 Purple Pins.png;
 
Richardson, Texas, USA~Richardson, Texas~2 community members.~2 Purple Pins.png;
 
Richardson, Texas, USA~Richardson, Texas~2 community members.~2 Purple Pins.png;
 
Frisco, Texas, USA~Frisco, Texas~8 community members.~3 Purple Pins.png;
 
Frisco, Texas, USA~Frisco, Texas~8 community members.~3 Purple Pins.png;
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Locri, Calabria, Italy~Locri, Italy~1 community member.~Purple Pin.png;
 
Locri, Calabria, Italy~Locri, Italy~1 community member.~Purple Pin.png;
 
Gaithersburg, Maryland, USA~Gaithersburg, Maryland~1 community member.~Purple Pin.png;
 
Gaithersburg, Maryland, USA~Gaithersburg, Maryland~1 community member.~Purple Pin.png;
 +
Corvallis, Oregon, USA~Corvallis, Oregon~1 community member.~Purple Pin.png;
 
South Molton, Devon, United Kingdom~South Molton, United Kingdom~1 community member.~Purple Pin.png;
 
South Molton, Devon, United Kingdom~South Molton, United Kingdom~1 community member.~Purple Pin.png;
 
SOUTHLAKE, Texas, USA~SOUTHLAKE, Texas~2 community members.~2 Purple Pins.png;
 
SOUTHLAKE, Texas, USA~SOUTHLAKE, Texas~2 community members.~2 Purple Pins.png;
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Oxford, Oxfordshire, United Kingdom~Oxford, United Kingdom~1 community member.~Purple Pin.png;
 
Oxford, Oxfordshire, United Kingdom~Oxford, United Kingdom~1 community member.~Purple Pin.png;
 
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Garland, Texas, USA:Zagreb, Zagreb, Croatia~Project: [[COVID-19 DIY Ventillator]]~This project was created in response to the Columbia University DIY Ventilator Challenge. The goal of this challenge is to design a device based on an Ambu-bag [bag valve mask] that can be used both for invasive ventilation (in hospital setting) and potentially for non-invasive ventilation using a mask. Ambu-bags [bag valve masks] are standard common and low cost CPR devices that are typically used manually to perform resuscitation.~#ED254E~0.5~5;
+
Garland, Texas, USA:Zagreb, Zagreb, Croatia~Project: [[COVID-19 DIY Ventilator]]~This project was created in response to the Columbia University DIY Ventilator Challenge. The goal of this challenge is to design a device based on an Ambu-bag [bag valve mask] that can be used both for invasive ventilation (in hospital setting) and potentially for non-invasive ventilation using a mask. Ambu-bags [bag valve masks] are standard common and low cost CPR devices that are typically used manually to perform resuscitation.~#ED254E~0.5~5;
Garland, Texas, USA:Murphy, Texas, USA~Project: [[COVID-19 DIY Ventillator]]~This project was created in response to the Columbia University DIY Ventilator Challenge. The goal of this challenge is to design a device based on an Ambu-bag [bag valve mask] that can be used both for invasive ventilation (in hospital setting) and potentially for non-invasive ventilation using a mask. Ambu-bags [bag valve masks] are standard common and low cost CPR devices that are typically used manually to perform resuscitation.~#ED254E~0.5~5;
+
Garland, Texas, USA:Murphy, Texas, USA~Project: [[COVID-19 DIY Ventilator]]~This project was created in response to the Columbia University DIY Ventilator Challenge. The goal of this challenge is to design a device based on an Ambu-bag [bag valve mask] that can be used both for invasive ventilation (in hospital setting) and potentially for non-invasive ventilation using a mask. Ambu-bags [bag valve masks] are standard common and low cost CPR devices that are typically used manually to perform resuscitation.~#ED254E~0.5~5;
Garland, Texas, USA:New York, New York, USA~Project: [[COVID-19 DIY Ventillator]]~This project was created in response to the Columbia University DIY Ventilator Challenge. The goal of this challenge is to design a device based on an Ambu-bag [bag valve mask] that can be used both for invasive ventilation (in hospital setting) and potentially for non-invasive ventilation using a mask. Ambu-bags [bag valve masks] are standard common and low cost CPR devices that are typically used manually to perform resuscitation.~#ED254E~0.5~5;
+
Garland, Texas, USA:New York, New York, USA~Project: [[COVID-19 DIY Ventilator]]~This project was created in response to the Columbia University DIY Ventilator Challenge. The goal of this challenge is to design a device based on an Ambu-bag [bag valve mask] that can be used both for invasive ventilation (in hospital setting) and potentially for non-invasive ventilation using a mask. Ambu-bags [bag valve masks] are standard common and low cost CPR devices that are typically used manually to perform resuscitation.~#ED254E~0.5~5;
Garland, Texas, USA:Frisco, Texas, USA~Project: [[COVID-19 DIY Ventillator]]~This project was created in response to the Columbia University DIY Ventilator Challenge. The goal of this challenge is to design a device based on an Ambu-bag [bag valve mask] that can be used both for invasive ventilation (in hospital setting) and potentially for non-invasive ventilation using a mask. Ambu-bags [bag valve masks] are standard common and low cost CPR devices that are typically used manually to perform resuscitation.~#ED254E~0.5~5;
+
Garland, Texas, USA:Frisco, Texas, USA~Project: [[COVID-19 DIY Ventilator]]~This project was created in response to the Columbia University DIY Ventilator Challenge. The goal of this challenge is to design a device based on an Ambu-bag [bag valve mask] that can be used both for invasive ventilation (in hospital setting) and potentially for non-invasive ventilation using a mask. Ambu-bags [bag valve masks] are standard common and low cost CPR devices that are typically used manually to perform resuscitation.~#ED254E~0.5~5;
Garland, Texas, USA:Sofia, Sofiya-Grad, Bulgaria~Project: [[COVID-19 DIY Ventillator]]~This project was created in response to the Columbia University DIY Ventilator Challenge. The goal of this challenge is to design a device based on an Ambu-bag [bag valve mask] that can be used both for invasive ventilation (in hospital setting) and potentially for non-invasive ventilation using a mask. Ambu-bags [bag valve masks] are standard common and low cost CPR devices that are typically used manually to perform resuscitation.~#ED254E~0.5~5;
+
Garland, Texas, USA:Sofia, Sofiya-Grad, Bulgaria~Project: [[COVID-19 DIY Ventilator]]~This project was created in response to the Columbia University DIY Ventilator Challenge. The goal of this challenge is to design a device based on an Ambu-bag [bag valve mask] that can be used both for invasive ventilation (in hospital setting) and potentially for non-invasive ventilation using a mask. Ambu-bags [bag valve masks] are standard common and low cost CPR devices that are typically used manually to perform resuscitation.~#ED254E~0.5~5;
 
Garland, Texas, USA:Mumbai, Maharashtra, India~Project: [[MicroBlaster-UV]]~Develop an affordable, portable 3D-printed device that can sterilize face masks or face shields using UV light and learn about the wonderful world of microbes!~#ED254E~0.5~5;
 
Garland, Texas, USA:Mumbai, Maharashtra, India~Project: [[MicroBlaster-UV]]~Develop an affordable, portable 3D-printed device that can sterilize face masks or face shields using UV light and learn about the wonderful world of microbes!~#ED254E~0.5~5;
 
Garland, Texas, USA:Flower Mound, Texas, USA~Project: [[MicroBlaster-UV]]~Develop an affordable, portable 3D-printed device that can sterilize face masks or face shields using UV light and learn about the wonderful world of microbes!~#ED254E~0.5~5;
 
Garland, Texas, USA:Flower Mound, Texas, USA~Project: [[MicroBlaster-UV]]~Develop an affordable, portable 3D-printed device that can sterilize face masks or face shields using UV light and learn about the wonderful world of microbes!~#ED254E~0.5~5;
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Garland, Texas, USA:Plano, Texas, USA~Project: [[MicroBlaster-UV]]~Develop an affordable, portable 3D-printed device that can sterilize face masks or face shields using UV light and learn about the wonderful world of microbes!~#ED254E~0.5~5;
 
Garland, Texas, USA:Plano, Texas, USA~Project: [[MicroBlaster-UV]]~Develop an affordable, portable 3D-printed device that can sterilize face masks or face shields using UV light and learn about the wonderful world of microbes!~#ED254E~0.5~5;
 
Garland, Texas, USA:Allen, Texas, USA~Project: [[MicroBlaster-UV]]~Develop an affordable, portable 3D-printed device that can sterilize face masks or face shields using UV light and learn about the wonderful world of microbes!~#ED254E~0.5~5;
 
Garland, Texas, USA:Allen, Texas, USA~Project: [[MicroBlaster-UV]]~Develop an affordable, portable 3D-printed device that can sterilize face masks or face shields using UV light and learn about the wonderful world of microbes!~#ED254E~0.5~5;
 +
Krakow, Malopolskie, Poland:Plano, Texas, USA~Project: [[Soft Robotics]]~Soft robots are flexible bio-inspired technologies which are strong, gentle, and squishy. We'll learn about some existing projects, then build one of our own!~#ED254E~0.5~5;
 +
Krakow, Malopolskie, Poland:Dallas, Texas, USA~Project: [[Soft Robotics]]~Soft robots are flexible bio-inspired technologies which are strong, gentle, and squishy. We'll learn about some existing projects, then build one of our own!~#ED254E~0.5~5;
 +
Krakow, Malopolskie, Poland:Plano, Texas, USA~Project: [[Soft Robotics]]~Soft robots are flexible bio-inspired technologies which are strong, gentle, and squishy. We'll learn about some existing projects, then build one of our own!~#ED254E~0.5~5;
 +
Krakow, Malopolskie, Poland:Frisco, Texas, USA~Project: [[Soft Robotics]]~Soft robots are flexible bio-inspired technologies which are strong, gentle, and squishy. We'll learn about some existing projects, then build one of our own!~#ED254E~0.5~5;
 +
Krakow, Malopolskie, Poland:Waxahachie, Texas, USA~Project: [[Soft Robotics]]~Soft robots are flexible bio-inspired technologies which are strong, gentle, and squishy. We'll learn about some existing projects, then build one of our own!~#ED254E~0.5~5;
 +
Krakow, Malopolskie, Poland:Southlake, Texas, USA~Project: [[Soft Robotics]]~Soft robots are flexible bio-inspired technologies which are strong, gentle, and squishy. We'll learn about some existing projects, then build one of our own!~#ED254E~0.5~5;
 +
Krakow, Malopolskie, Poland:Frisco, Texas, USA~Project: [[Soft Robotics]]~Soft robots are flexible bio-inspired technologies which are strong, gentle, and squishy. We'll learn about some existing projects, then build one of our own!~#ED254E~0.5~5;
 
Carrollton, Texas, USA:Cleburne, Texas, USA~Project: [[TSoG X1]]~Design / build / fly a fixed-wing RC aircraft from the ground up with a predefined payload and range.~#ED254E~0.5~5;
 
Carrollton, Texas, USA:Cleburne, Texas, USA~Project: [[TSoG X1]]~Design / build / fly a fixed-wing RC aircraft from the ground up with a predefined payload and range.~#ED254E~0.5~5;
 
Carrollton, Texas, USA:Zagreb, Zagreb, Croatia~Project: [[TSoG X1]]~Design / build / fly a fixed-wing RC aircraft from the ground up with a predefined payload and range.~#ED254E~0.5~5;
 
Carrollton, Texas, USA:Zagreb, Zagreb, Croatia~Project: [[TSoG X1]]~Design / build / fly a fixed-wing RC aircraft from the ground up with a predefined payload and range.~#ED254E~0.5~5;
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Carrollton, Texas, USA:Flower Mound, Texas, USA~Project: [[TSoG X1]]~Design / build / fly a fixed-wing RC aircraft from the ground up with a predefined payload and range.~#ED254E~0.5~5;
 
Carrollton, Texas, USA:Flower Mound, Texas, USA~Project: [[TSoG X1]]~Design / build / fly a fixed-wing RC aircraft from the ground up with a predefined payload and range.~#ED254E~0.5~5;
 
Carrollton, Texas, USA:Richmond, Texas, USA~Project: [[TSoG X1]]~Design / build / fly a fixed-wing RC aircraft from the ground up with a predefined payload and range.~#ED254E~0.5~5;
 
Carrollton, Texas, USA:Richmond, Texas, USA~Project: [[TSoG X1]]~Design / build / fly a fixed-wing RC aircraft from the ground up with a predefined payload and range.~#ED254E~0.5~5;
Krakow, Malopolskie, Poland:Plano, Texas, USA~Project: [[The Tentacular Bubble Bots]]~Soft robots are flexible bio-inspired technologies which are strong, gentle, and squishy. We'll learn about some existing projects, then build one of our own!~#ED254E~0.5~5;
 
Krakow, Malopolskie, Poland:Dallas, Texas, USA~Project: [[The Tentacular Bubble Bots]]~Soft robots are flexible bio-inspired technologies which are strong, gentle, and squishy. We'll learn about some existing projects, then build one of our own!~#ED254E~0.5~5;
 
Krakow, Malopolskie, Poland:Plano, Texas, USA~Project: [[The Tentacular Bubble Bots]]~Soft robots are flexible bio-inspired technologies which are strong, gentle, and squishy. We'll learn about some existing projects, then build one of our own!~#ED254E~0.5~5;
 
Krakow, Malopolskie, Poland:Frisco, Texas, USA~Project: [[The Tentacular Bubble Bots]]~Soft robots are flexible bio-inspired technologies which are strong, gentle, and squishy. We'll learn about some existing projects, then build one of our own!~#ED254E~0.5~5;
 
Krakow, Malopolskie, Poland:Waxahachie, Texas, USA~Project: [[The Tentacular Bubble Bots]]~Soft robots are flexible bio-inspired technologies which are strong, gentle, and squishy. We'll learn about some existing projects, then build one of our own!~#ED254E~0.5~5;
 
Krakow, Malopolskie, Poland:Southlake, Texas, USA~Project: [[The Tentacular Bubble Bots]]~Soft robots are flexible bio-inspired technologies which are strong, gentle, and squishy. We'll learn about some existing projects, then build one of our own!~#ED254E~0.5~5;
 
Krakow, Malopolskie, Poland:Frisco, Texas, USA~Project: [[The Tentacular Bubble Bots]]~Soft robots are flexible bio-inspired technologies which are strong, gentle, and squishy. We'll learn about some existing projects, then build one of our own!~#ED254E~0.5~5;
 
 
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Revision as of 02:00, August 2, 2020

Take a peek behind the curtain of TSoG and see how far and wide our community spans. With 171 members and growing, there are TSoG community members all across the globe. Each purple pin in the map below represents the location of one of our members, and each red line represents collaboration that is happening within one of our sponsored projects (click on a line to learn more about it).

We hope you'll join us soon to learn new things and participate in our ongoing projects!

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