Structure for Architects – Student Video Lessons

Structure for Architects – Student Video Lessons

Ramsey Dabby

Architectural Technology Dept / City Tech

Structures 1

Activity Description: Provide a brief description of the activity

Activity Description
The overriding mission of the college experience is to help City Tech students succeed in the classroom and beyond, by imparting an enthusiasm for lifelong learning. This enthusiasm can be dampened for City Tech’s multicultural population by the cultural obstacles many students face. The concept for this proposal is to enhance the student experience for a course titled “Structures” in the Architectural Technology Department, by stimulating an enthusiasm for this particular area of their studies. The idea encompasses a visual and intuitive approach within the classroom, combined with place-based learning outside the classroom. Aside from conveying technical knowledge, the intent is to create student awareness of cultural barriers that will help them navigate the complexities of today’s world.

Barriers
In a multicultural setting such as NYC in general and City Tech in particular, cultural divides abound. They can be obvious like nationality and religion, or more subtle like age and personality. They can also occur within the profession between its white collar “architectural” and blue color “construction” sides. Caught up in day-to-day problems, we (both students and instructors) tend to overlook these divides that create tensions and stresses in relationships.

Background
Structures is a branch of architectural study dealing with the engineering side of how buildings stand up. Architectural students, as conceptual thinkers, tend to be intimidated by the technical aspects of engineering and tend to “turn off” to their engineering courses. Added to this inherent aversion are the cultural barriers many City Tech students face such as language, family responsibilities, and deficient social support systems. For many, this also includes having to learn a new system of engineering units used in the US – the imperial system in place of their more familiar metric system. In short, the challenge is to address and overcome these cultural obstacles and create an enthusiasm for a course that holds the potential for dread in many architectural students.

Learning Goals: What do you aim to achieve with this activity?

Goals
The goal is to engage students and create enthusiasm for a course in Structures that will serve to further their undergraduate technical knowledge and professional lives upon graduation. This will be done through strategies for both classroom and place-based learning.

Classroom Learning
Conventional structural textbooks tend to be wordy and lacking an intuitive approach to the subject matter. These textbooks present a challenge to City Tech’s multicultural architectural students. Course material will be communicated across cultural and linguistic barriers by conveying structural principles in a visual, intuitive manner through discussion, dialog, and physical “props”, rather than formal “lectures”.

A key component of classroom sessions will be a series of short, five-minute student videos highlighting the essentials of structural principles. Students will be teamed to prepare these videos in discussion format, among themselves and their instructor, supported by physical props. The precedence for these videos is an experimental one I had prepared, without rehearsal and just for fun, to which students enthusiastically responded, overwhelmingly endorsing the concept and asking for more like it.

Place-Based Learning
The classroom experience will be complemented by visits to architectural offices and construction sites, where students will not only will see the professions in action, but also observe the general cultural distinctions and personalities of the two sides of the profession. A goal of these visits to create an awareness that technical knowledge does not work in a vacuum, and that an understanding the interrelationships of personalities, influenced by culture, is an essential part of a successful professional experience.

Timing: At what point in the lesson or semester do you use this activity? How much classroom time do you devote to it? How much out-of-class time is expected?

The strategy is intended to be used throughout the semester. Classroom time will be approximately 10 minutes per session. Two place-based learning field trips will be conducted for a total of approximately 8 hours per semester.

Logistics: What preparation is needed for this activity? What instructions do you give students? Is the activity low-stakes, high-stakes, or something else?

See above.

Assessment: How do you assess this activity? What assessment measures do you use? Do you use a VALUE rubric? If not, how did you develop your rubric? Is your course part of the college-wide general education assessment initiative?

Assessment will be conducted by student essays reflecting on questions such as “why do I like this?” and “what is it that helps me learn?”

Reflection: How well did this activity work in your classroom? Would you repeat it? Why or why not? What challenges did you encounter, and how did you address them? What, if anything, would you change? What did students seem to enjoy about the activity?

Lead discussion on ways to learn without cultural coding; record outcomes of discussions.

Additional Information: Please share any additional comments and further documentation of the activity – e.g. assignment instructions, rubrics, examples of student work, etc. These can be links to pages or posts on the OpenLab.

The experimental video can be found at https://www.youtube.com/watch?v=G4d3eDq_7pw

Please share a helpful link to a pages or post on the OpenLab

Project of Gearbox

Project of Gearbox

Zhou Zhang

Mechanical Engineering Tech.

Machine Design

Activity Description: Provide a brief description of the activity

Students in the class are required to work on their projects of gearboxes which are supposed to use in different applications in practice. The project includes four parts: (1) proposal. Students will find out their favorite topic and discuss their project plan with respect to the problems existed in current products, the advantages of their design, the implementation of the plan and future applications. (2) modeling and simulation. The gearbox should be simulated firstly in order to get rid of the possible bugs related to manufacturing. (3) Mid-term report. The students are required to submit a midterm report in order to guarantee that they are working in the correct direction. (4) The project presentation and the final project report.

Learning Goals: What do you aim to achieve with this activity?

Through this design, the students will have the knowledge of the concept of product design and manufacturing, familiarize themselves with the design procedures, learn how to respect the multicultural traditions, learn how to work in a team, learn how to prepare for their professional career, and study how to integrate the fundamental theories into practice.

Timing: At what point in the lesson or semester do you use this activity? How much classroom time do you devote to it? How much out-of-class time is expected?

This activity is semester based. So, the students will be required to submit their proposal at the 3rd week. Then, the need to finish their modeling and simulation task at the 8th week. At the 9th week, the first project report is required. At the 12th week, they should prepare all the parts used in the project and be ready to assemble. At the 15th week, the presentation and gala are hosted.
This project is supposed to work in class, and the students are not necessary to take extra out-of-class time. The students will be given 1 hour per week to work on their projects.

Logistics: What preparation is needed for this activity? What instructions do you give students? Is the activity low-stakes, high-stakes, or something else?

For the project, there are some things to prepare. During the proceeding of the project, fundamental knowledge is given. Following that, the students need to do a survey and find out their favorite project. The project report template is distributed in order to facilitate them to work on the report. In addition, the students are provided tooling machines and 3D printers to manufacturing all the necessary parts.

The project is, in fact, an in-class project. So, it is a low-stakes activity.

Assessment: How do you assess this activity? What assessment measures do you use? Do you use a VALUE rubric? If not, how did you develop your rubric? Is your course part of the college-wide general education assessment initiative?

I used a rubric to evaluate the project. This work is also one part of the college-wide general education assessment initiative regarding teamwork this year.

Reflection: How well did this activity work in your classroom? Would you repeat it? Why or why not? What challenges did you encounter, and how did you address them? What, if anything, would you change? What did students seem to enjoy about the activity?

This is a semester-based activity. As a critical course in my department, this course will be repeated.

Additional Information: Please share any additional comments and further documentation of the activity – e.g. assignment instructions, rubrics, examples of student work, etc. These can be links to pages or posts on the OpenLab.

The project in machine design is very important. The students will have the knowledge of the concept of product design and manufacturing, familiarize themselves with the design procedures, learn how to respect the multicultural traditions, learn how to work in a team, learn how to prepare for their professional career, and study how to integrate the fundamental theories into practice.
As a critic course, the project, in fact, enriches the contents of the course, makes the students prepared and improves the students' skills with respect to CAD, manufacturing, mechanics, structure, industrial design and simulation.

Please share a helpful link to a pages or post on the OpenLab

Cultural Background and Thermal Comfort

Cultural Background and Thermal Comfort

Jihun Kim

Architectural Technology

Site Planning & Environmental Systems

Activity Description: Provide a brief description of the activity

Reflecting on students cultural background on the thermal environment, microclimate data will be collected and analyzed to find the common range of comfort zone. The process includes the following. 1) Write a short essay on personal thermal environment in the childhood [temperature, humidity, solar exposure, clothing level], 2) Collect microclimate data as individual and illustrate the characteristics of the environment and the clothing types, 3) Visualize the collected data on psychrometric chart and assess for thermal comfort and satisfaction , 4) Analyze the result for the differences and similarities with other students and with ASHRAE standard, while reflecting on the essay on personal history on thermal environment.

Learning Goals: What do you aim to achieve with this activity?

The goal of the assignment is to provide an understanding of how a cultural background would influence thermal comfort of an individual while enhancing student’s capacity 1) to analyze and
2) visualize numerical data, 3) to communicate effectively, and 4) to work collaboratively.

Timing: At what point in the lesson or semester do you use this activity? How much classroom time do you devote to it? How much out-of-class time is expected?

The activity can be deployed in the first class or any class early in a semester. After a relevant background is introduced as a lecture format, students as individual spend 1 hour to measure microclimate data and 1 hour to analyze during the class. Each student writes a short essay outside the class for 1 hour and adds microclimate measurement for 1 hour. Visualizing the data on a psychrometric chart would take 1 hour. Totaling 5 hours in and out of the class, students present their outcome as individuals in the following week.

Logistics: What preparation is needed for this activity? What instructions do you give students? Is the activity low-stakes, high-stakes, or something else?

Handheld device to measure microclimate are required. ASHRAE standards for thermal comfort shall be prepared. Critical writing is associated with the analysis of numerical data.

Assessment: How do you assess this activity? What assessment measures do you use? Do you use a VALUE rubric? If not, how did you develop your rubric? Is your course part of the college-wide general education assessment initiative?

A rubric shall be developed for the assessment. The criteria shall include Data Literacy (GenEd), Intercultural Knowledge (GenEd), Intercultural Knowledge and Competence (Gen), and Climate Analysis (Subject Matter from NAAB Accreditation).

Reflection: How well did this activity work in your classroom? Would you repeat it? Why or why not? What challenges did you encounter, and how did you address them? What, if anything, would you change? What did students seem to enjoy about the activity?

Additional Information: Please share any additional comments and further documentation of the activity – e.g. assignment instructions, rubrics, examples of student work, etc. These can be links to pages or posts on the OpenLab.

Please share a helpful link to a pages or post on the OpenLab

Network Brand (The Manifesto pt1)

Network Brand (The Manifesto pt1)

George Larkins

Communication Design

COMD 3521 Motion Design 1

Activity Description: Provide a brief description of the activity

Students are to create a manifesto designed to launch their network. Here is where it all starts. Where they have to look within themselves and develop the courage to share their beliefs with the world. I have them start off with what they believe and what they know to be true. Ex. I believe that racism is real. I know that discrimination exists in this society.

Learning Goals: What do you aim to achieve with this activity?

My aim here is to create an environment of ethical and honest reasoning designed to withstand the pressure that business demands. In addition to aid in rebuilding their self-belief system.

Timing: At what point in the lesson or semester do you use this activity? How much classroom time do you devote to it? How much out-of-class time is expected?

This project is part of their final. We devote two entire class sessions dealing with this. Out of class time is constantly encouraged. What I tell them is the more time you spend on a subject, the better it will become. If time permits, I share with them a video of the “Long Game, part 2.” https://vimeo.com/87448006

Logistics: What preparation is needed for this activity? What instructions do you give students? Is the activity low-stakes, high-stakes, or something else?

The instructions for this exercise is to start with a list of beliefs. What would do be doing right now in your perfect world? Are you preparing yourself go along with the future or are you preparing yourself to help shape the future? Do you believe that you can have an impact on this planet? Who are your design heroes, and why? And in order to do this, they have to develop the skills the right questions, not only questions from other people but of themselves as well. And have the courage to ask and answer honestly.

Assessment: How do you assess this activity? What assessment measures do you use? Do you use a VALUE rubric? If not, how did you develop your rubric? Is your course part of the college-wide general education assessment initiative?

I will use the creative thinking value rubric. I believe it fits this activity well.

Reflection: How well did this activity work in your classroom? Would you repeat it? Why or why not? What challenges did you encounter, and how did you address them? What, if anything, would you change? What did students seem to enjoy about the activity?

The activity went well, and yes, I will be repeating it. Why, because I believe it is an important skill set to have. That is having the courage to ask questions, be asked questions and give honest answers. My challenge has been getting students to manage the fear of being put in the spotlight. I address that issue by having students give their presentation in front of the class. One possibility would be to review some contemporary design and some history so that they would be more aware of the people that came before them. And also aid them in finding someone who could they can follow and be inspired by.

Additional Information: Please share any additional comments and further documentation of the activity – e.g. assignment instructions, rubrics, examples of student work, etc. These can be links to pages or posts on the OpenLab.

The next step here for will be to get more familiar using openLab.

Please share a helpful link to a pages or post on the OpenLab