Children's hospitals can be a scary place for children and their parents. Patients are stressed and anxious because they are in a space that is unfamiliar to them, and being forced to be in a confined space feels like a…
Children's hospitals can be a scary place for children and their parents. Patients are stressed and anxious because they are in a space that is unfamiliar to them, and being forced to be in a confined space feels like a punishment. Parents accompanying their children in hospitals are also emotionally stressed due to the overwhelming parental and financial responsibilities. There is a product opportunity gap which allows the patients to interact with the environment to make it more familiar to them and interact with the people around them to alleviate stress anxiety. This project aims to use the user-inspired engineering process to close that product opportunity gap.
Date Created
The date the item was original created (prior to any relationship with the ASU Digital Repositories.)
Not enough students are earning bachelor’s degrees in Computer Science, which is shocking as computing jobs are growing by the thousands (Zampa, 2016). These jobs have high-paying salaries and are not going to fade from the future any time soon,…
Not enough students are earning bachelor’s degrees in Computer Science, which is shocking as computing jobs are growing by the thousands (Zampa, 2016). These jobs have high-paying salaries and are not going to fade from the future any time soon, that is why the falling rates of computer science graduates are alarming. The working hypothesis on why so few college students major in computer science is that most think that it is too hard to learn (Wang, 2017). But I believe the real reason lies in that computer science is not an educational subject that is taught before university, which is too late for most students because by ages 12 to 13 (about seventh to eighth grade) they have decided that computer science concepts are “too difficult” for them to learn (Learning, 2022). Implementing a computer science-based education at an earlier age can possibly circumvent this seen development where students begin to lose confidence and doubt their abilities to learn computer science. This can be done easily by integrating computer science into academic subjects that are already taught in elementary schools such as science, math, and language arts as computer science uses logic, syntax, and other skills that are broadly applicable. Thus, I have created a introductory lesson plan for an elementary school class that incorporates learning how to code with robotics to promote learning computer science principles and destigmatize that it is “too hard” to learn in university.
Date Created
The date the item was original created (prior to any relationship with the ASU Digital Repositories.)
Not enough students are earning bachelor’s degrees in Computer Science, which is shocking as computing jobs are growing by the thousands (Zampa, 2016). These jobs have high-paying salaries and are not going to fade from the future any time soon,…
Not enough students are earning bachelor’s degrees in Computer Science, which is shocking as computing jobs are growing by the thousands (Zampa, 2016). These jobs have high-paying salaries and are not going to fade from the future any time soon, that is why the falling rates of computer science graduates are alarming. The working hypothesis on why so few college students major in computer science is that most think that it is too hard to learn (Wang, 2017). But I believe the real reason lies in that computer science is not an educational subject that is taught before university, which is too late for most students because by ages 12 to 13 (about seventh to eighth grade) they have decided that computer science concepts are “too difficult” for them to learn (Learning, 2022). Implementing a computer science-based education at an earlier age can possibly circumvent this seen development where students begin to lose confidence and doubt their abilities to learn computer science. This can be done easily by integrating computer science into academic subjects that are already taught in elementary schools such as science, math, and language arts as computer science uses logic, syntax, and other skills that are broadly applicable. Thus, I have created a introductory lesson plan for an elementary school class that incorporates learning how to code with robotics to promote learning computer science principles and destigmatize that it is “too hard” to learn in university.
Date Created
The date the item was original created (prior to any relationship with the ASU Digital Repositories.)
Not enough students are earning bachelor’s degrees in Computer Science, which is shocking as computing jobs are growing by the thousands (Zampa, 2016). These jobs have high-paying salaries and are not going to fade from the future any time soon,…
Not enough students are earning bachelor’s degrees in Computer Science, which is shocking as computing jobs are growing by the thousands (Zampa, 2016). These jobs have high-paying salaries and are not going to fade from the future any time soon, that is why the falling rates of computer science graduates are alarming. The working hypothesis on why so few college students major in computer science is that most think that it is too hard to learn (Wang, 2017). But I believe the real reason lies in that computer science is not an educational subject that is taught before university, which is too late for most students because by ages 12 to 13 (about seventh to eighth grade) they have decided that computer science concepts are “too difficult” for them to learn (Learning, 2022). Implementing a computer science-based education at an earlier age can possibly circumvent this seen development where students begin to lose confidence and doubt their abilities to learn computer science. This can be done easily by integrating computer science into academic subjects that are already taught in elementary schools such as science, math, and language arts as computer science uses logic, syntax, and other skills that are broadly applicable. Thus, I have created a introductory lesson plan for an elementary school class that incorporates learning how to code with robotics to promote learning computer science principles and destigmatize that it is “too hard” to learn in university.
Date Created
The date the item was original created (prior to any relationship with the ASU Digital Repositories.)
Not enough students are earning bachelor’s degrees in Computer Science, which is shocking as computing jobs are growing by the thousands (Zampa, 2016). These jobs have high-paying salaries and are not going to fade from the future any time soon,…
Not enough students are earning bachelor’s degrees in Computer Science, which is shocking as computing jobs are growing by the thousands (Zampa, 2016). These jobs have high-paying salaries and are not going to fade from the future any time soon, that is why the falling rates of computer science graduates are alarming. The working hypothesis on why so few college students major in computer science is that most think that it is too hard to learn (Wang, 2017). But I believe the real reason lies in that computer science is not an educational subject that is taught before university, which is too late for most students because by ages 12 to 13 (about seventh to eighth grade) they have decided that computer science concepts are “too difficult” for them to learn (Learning, 2022). Implementing a computer science-based education at an earlier age can possibly circumvent this seen development where students begin to lose confidence and doubt their abilities to learn computer science. This can be done easily by integrating computer science into academic subjects that are already taught in elementary schools such as science, math, and language arts as computer science uses logic, syntax, and other skills that are broadly applicable. Thus, I have created a introductory lesson plan for an elementary school class that incorporates learning how to code with robotics to promote learning computer science principles and destigmatize that it is “too hard” to learn in university.
Date Created
The date the item was original created (prior to any relationship with the ASU Digital Repositories.)
Build. Learn. Repeat. The three core actions of Tanagons, a learning kit designed for the K-6 classroom in teaching kids about the "other Rs" of sustainability: repair, repurpose, and reimagine. By examining societal trends related to these new approaches to…
Build. Learn. Repeat. The three core actions of Tanagons, a learning kit designed for the K-6 classroom in teaching kids about the "other Rs" of sustainability: repair, repurpose, and reimagine. By examining societal trends related to these new approaches to waste management, along with considerations of current K-6 curriculum guidelines and how to optimize learning while following them, Tanagons creates a more comprehensive and engaging learning experience of this complex topic in hopes of preparing children to be more conscious individuals in the mission for sustainability.
Date Created
The date the item was original created (prior to any relationship with the ASU Digital Repositories.)
Build. Learn. Repeat. The three core actions of Tanagons, a learning kit designed for the K-6 classroom in teaching kids about the "other Rs" of sustainability: repair, repurpose, and reimagine. By examining societal trends related to these new approaches to…
Build. Learn. Repeat. The three core actions of Tanagons, a learning kit designed for the K-6 classroom in teaching kids about the "other Rs" of sustainability: repair, repurpose, and reimagine. By examining societal trends related to these new approaches to waste management, along with considerations of current K-6 curriculum guidelines and how to optimize learning while following them, Tanagons creates a more comprehensive and engaging learning experience of this complex topic in hopes of preparing children to be more conscious individuals in the mission for sustainability.
Date Created
The date the item was original created (prior to any relationship with the ASU Digital Repositories.)
Build. Learn. Repeat. The three core actions of Tanagons, a learning kit designed for the K-6 classroom in teaching kids about the "other Rs" of sustainability: repair, repurpose, and reimagine. By examining societal trends related to these new approaches to…
Build. Learn. Repeat. The three core actions of Tanagons, a learning kit designed for the K-6 classroom in teaching kids about the "other Rs" of sustainability: repair, repurpose, and reimagine. By examining societal trends related to these new approaches to waste management, along with considerations of current K-6 curriculum guidelines and how to optimize learning while following them, Tanagons creates a more comprehensive and engaging learning experience of this complex topic in hopes of preparing children to be more conscious individuals in the mission for sustainability.
Date Created
The date the item was original created (prior to any relationship with the ASU Digital Repositories.)