Red Fox

 1. Read about existing plant rearing devices through secondary research such as browsing online platforms that sells these plant rearing devices. With the information, I have a general idea of the limitations of current designs. This allows us to improve it by integrating the required features/solutions into our device. 2. Wrote on the current existing plant rearing devices such as Kollea Reliable Automatic Watering System and the Click and Grow Smart Garden 9 PRO in the report.  3. Research about Click and Grow's current app that is integrated into the Smart Garden. Downloaded the app on the google playstore to do a "playtest" on its features. Afterwards, I wrote about the companion app to highlights its pros and cons and what can be improved. With the limitations in mind, we can have a general idea of how our app can benefit users. 4. Researched about soil moisture and pH sensors that are currently in the market to determine if it is suitable to integrate it into our P

  The webpage “Turbofan Engine” from NASA (2021) introduces and explains the concept of the aerospace turbofan engine. The engine produces thrust which allows an airplane to move through the air. It is a modern variation of a gas turbine engine commonly used in airliners because of its high thrust and fuel efficiency. According to a related webpage on turbofan thrust by NASA (2021), the engine works by capturing incoming air through the inlet. Some of this air goes through the fan, core compressor, and burner for combustion. The hot exhaust then passes through the core and fan turbines before exiting through the nozzle which then produces thrust. The nozzle serves as the engine's exhaust duct. It's where high-speed air exits the engine at the back. According to Newton's third law, this action of expelling air generates an equal and opposite reaction which results in pushing the airplane forward in the air (Collin, 2022). Due to engine design and noise reduction technology,

  The webpage “Turbofan Engine” from NASA (2021) introduces and explains the concept of the aerospace turbofan engine. The engine produces thrust which allows an airplane to move through the air. It is a modern variation of a gas turbine engine commonly used in airliners because of its high thrust and fuel efficiency. According to a related webpage on turbofan thrust by NASA (2021), the engine works by capturing incoming air through the inlet. Some of this air goes through the fan, core compressor, and burner for combustion. The hot exhaust then passes through the core and fan turbines before exiting through the nozzle which then produces thrust. The nozzle serves as the engine's exhaust duct. It's where high-speed air exits the engine at the back. According to Newton's third law, this action of expelling air generates an equal and opposite reaction which results in pushing the airplane forward in the air (Collin, 2022). Due to engine design and noise reduction technology,