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Critical Reflection

Module Learning Previously I have mentioned during my introduction that through this module, I would like to work on delivering my words clearly and effectively, as well as maintaining eye contact with people I engage with. Through the course of these 13 weeks, I would like to confidently say that I have achieved my goals. Definitely, the learning aspects of this module are not limited, not only did I gain those skills, but I felt that I managed to weigh out the different factors that contributed to this gap I had. All these could not have been done without the help and support from my peers in my UCS module class, not to forget Professor Brad, who provided constructive feedback so that I was able to better myself in my traits and aspects, in terms of critical thinking and effective communication. On a side note, using the resources that were introduced to us in class has given me new insights on how to enhance both my critical thinking and effective communication.  I am able to write

Rationale for Participation Mark

I believe that I should get an 'Excellent' grade for participation. Although my punctuality may not be the best, my performance in class has never been lackluster. I actively participate during discussions and conversations, providing insightful and informative content to my teammates. Personally, I felt that I have taken in the constructive feedback from Professor Brad himself and applied them to my work and submissions. The results are demonstrated through the quality of my submissions and I have never surpassed any deadlines, proving my worth of getting a top grade.

Reader Response Draft #4

The article “Replacing Hearts. Restoring Lives” (BiVACOR, n.d.) introduces the first long-term therapy for people with severe biventricular heart failure. BiVACOR’s Total Artificial Heart (TAH) is a treatment option for individuals in the final stages of heart failure who require assistance while awaiting a heart transplant or are ineligible for transplantation. The article also states that the BiVACOR system consists of a rotor suspended using advanced magnetic levitation (MAGLEV), positioned between opposing pump enclosures. Its central capability is to assist both the left and right sides of the heart, facilitated by impeller blades for each side, attached to the revolving core. The core is elevated and set in motion through an electromagnetic motor and bearing configuration situated atop the pump enclosures. According to the article, the impellers are specifically engineered hydraulically and, when coupled with MAGLEV technology, allow precise control over circulation adjustment th

My Main Contributions To The Research Project (UPDATED)

Research 1. Searched up on the web on the rising trend of online shopping and tried to find a link between increasing number of online shoppers to the implementation of our design (Virtual Fitting Room). 2. Came up with survey questions with the use of openAI (ChatGPT) and developed the whole survey with the use of Google Forms. 3. Logged into my personal UNIQLO application to find out what UNIQLO has in its app to offer to the current market (in terms of current sizing charts and guides). 4. Researched on the current market trends on online shopping with help from Google and ChatGPT, and further looked into articles on the current designs of existing solutions, using Google Scholar. Report 1. Started with the introduction, brought up some statistics (Oberlo) to include into the background. 2. Conducted the survey, summarised the results from 35 respondents and included the data into the section of 'issues and concerns faced by the public' in Background. 3. Explored the differe

Reader Response Draft #3

The article “Replacing Hearts. Restoring Lives.” (BiVACOR, n.d.) introduces the first long-term therapy for people with severe biventricular heart failure. BiVACOR’s Total Artificial Heart (TAH) is a treatment option for individuals in the final stages of heart failure who require assistance while awaiting a heart transplant or are ineligible for transplantation. The article also stated that the BiVACOR system consists of a rotor suspended using advanced magnetic levitation (MAGLEV), positioned between opposing pump enclosures. Its central capability is to assist both the left and right sides of the heart, facilitated by impeller blades for each side, attached to the revolving core. The core is elevated and set in motion through an electromagnetic motor and bearing configuration situated atop the pump enclosures. According to the article, the impellers are specifically engineered hydraulically and, when coupled with MAGLEV technology, allow precise control over circulation adjustment t

Reader Response Draft #2

The article “Replacing Hearts. Restoring Lives.” (BiVACOR, n.d.) introduces the first long-term therapy for people with severe biventricular heart failure. BiVACOR’s Total Artificial Heart (TAH) is a treatment option for individuals in the final stages of heart failure who require assistance while awaiting a heart transplant or are ineligible for transplantation. The BiVACOR system consists of a rotor suspended using advanced magnetic levitation (MAGLEV), positioned between opposing pump enclosures. Its central capability is to assist both the left and right sides of the heart, facilitated by impeller blades for each side, attached to the revolving core. The core is elevated and set in motion through an electromagnetic motor and bearing configuration situated atop the pump enclosures. The impellers are specifically engineered hydraulically and, when coupled with MAGLEV technology, allow precise control over circulation adjustment through a differential fluid discharge. With advanced te

Reader Response Draft #1

The article “Replacing Hearts. Restoring Lives.” (BiVACOR, n.d.) introduces the first long-term therapy for people with severe biventricular heart failure. BiVACOR’s Total Artificial Heart is a treatment option for individuals in the final stages of heart failure who require assistance while awaiting a heart transplant or are ineligible for transplantation. The BiVACOR system consists of a rotor suspended using advanced magnetic levitation (MAGLEV), positioned between opposing pump enclosures. Its central capability is to assist both the left and right sides of the heart, facilitated by impeller blades for each side, attached to the revolving core. The core is elevated and set in motion through an electromagnetic motor and bearing configuration situated atop the pump enclosures. The impellers are specifically engineered hydraulically and, when coupled with MAGLEV technology, allow precise control over circulation adjustment through a differential fluid discharge. With advanced technolo