This document provides an overview of Water106, a distributed approach to issues-based education on water issues. It discusses the challenges of traditional interdisciplinary and team-taught approaches and proposes a "loosely coupled" model where students in different courses engage in shared tasks and assignments without coordination between faculty. Key elements include the Waterfeed for students to summarize news articles and the Assignment Bank, which provides a variety of assignment options at different levels of difficulty. The goal is to provide opportunities for students across disciplines and institutions to study water issues through an authentic experience that does not require extensive coordination between courses.
Building community through Slack: a student-owned digital space for connectiv...RichardM_Walker
This presentation discusses an institutional approach to the development of a digital learning community for students participating on our fully online study programmes at the University of York. Our approach was based on the use of a team-based environment Slack as a ‘third space’ for interaction - i.e. an institutionally owned platform which students were invited to control and manage as their own space to support their own networking and community activities.
Open Access Week 2014: Open Textbook Research Overview OER Hub
This slide deck was presented by Beck Pitt at an Open University (UK) Library Services Open Access Week 2014 event on 22 October 2014.
The presentation focuses on research conducted Fall/Winter 2014 with OpenStax College.
Building community through Slack: a student-owned digital space for connectiv...RichardM_Walker
This presentation discusses an institutional approach to the development of a digital learning community for students participating on our fully online study programmes at the University of York. Our approach was based on the use of a team-based environment Slack as a ‘third space’ for interaction - i.e. an institutionally owned platform which students were invited to control and manage as their own space to support their own networking and community activities.
Open Access Week 2014: Open Textbook Research Overview OER Hub
This slide deck was presented by Beck Pitt at an Open University (UK) Library Services Open Access Week 2014 event on 22 October 2014.
The presentation focuses on research conducted Fall/Winter 2014 with OpenStax College.
How Teacher Intervention Affects Primary Student Collaboration in Wiki Enviro...CITE
WONG, Joyce Choi Chun (Teacher Librarian of Kingston International School)
http://citers2013.cite.hku.hk/en/paper_621.htm
---------------------------
Author(s) bear(s) the responsibility in case of any infringement of the Intellectual Property Rights of third parties.
---------------------------
CITE was notified by the author(s) that if the presentation slides contain any personal particulars, records and personal data (as defined in the Personal Data (Privacy) Ordinance) such as names, email addresses, photos of students, etc, the author(s) have/has obtained the corresponding person's consent.
CANeLearn Webinar - A Fall Like No Other (Part 2): Voices from the FieldMichael Barbour
Barbour, M. K., LaBonte, R., & Nagle, J. (2020, December). A fall like no other (Part 2): Voices from the field [Webinar]. Canadian eLearning Network. https://youtu.be/BV6DySJIzlA
Slides that introduce SoTL: what it is, some examples, and why one might do it. Presented to a few groups at Lakehead University in November 2019. Slides available to download w/o slideshare account: https://osf.io/xkw4g/
"OER Research Hub Overview" was presented by Beck Pitt at Thompson Rivers University (TRU), Kamloops, B.C. Canada on 26 May 2015.
This presentation was developed from the slide deck created and presented by Bea de los Arcos at Open Education Global in Banff and OER15 with the addition of slides and content focused on open textbook research.
Sponsored by SJSU's ECampus, Katherine D. Harris (Professor, English) presents a workshop for all faculty to dive into or upgrade their use of digital methods, skills, and tools in their courses. For definitions within this slide deck, please cite:
Frost Davis, Gold, Harris, DRAFT - Introduction, *Digital Pedagogy in the Humanities,* MLA (forthcoming 2019). Accessed April 9, 2019.
London International Conference in Education2015debbieholley1
This talk offers insights into the current policy 'churn' in the training of both primary and secondary teachers in England, and identifies a gap in provision - with schools spending increasing time developing teachers 'in-house', the ongoing continuous professional development (CPD) of the new entrants to the profession falls between the more formal offerings during in service training days (INSET) and the needs expressed by the trainees/NQTs themselves. Drawing upon the experience of a single University provider of trading in the east of England, covering a wide geographic area and liaising with well over 200 partner schools, three initiatives will be highlighted, critically examined and the implications discussed in the light of limited resource, potentially dis-engaged teachers in their first year in school (only 62% are teaching one year after qualifying) and the need to offer CPD in a more engaging, relevant and accessible manner. The Open Education Resource initiative offers engagement from a local to global stage; access to experts from different countries, and, significantly, offers educators from the Southern Hemisphere access to materials and resources they can share, opportunities to contribute to research initiatives and a forum to make their voices heard. Wider links to work based learning across professions are being explored in my new role at Bournemouth University.
Contact:
dholley@bournemouth.ac.uk
Personal:
Twitter: @debbieholley1
Website: drdebbieholley.com
Blog: hashtags, handheld and handbags
How Teacher Intervention Affects Primary Student Collaboration in Wiki Enviro...CITE
WONG, Joyce Choi Chun (Teacher Librarian of Kingston International School)
http://citers2013.cite.hku.hk/en/paper_621.htm
---------------------------
Author(s) bear(s) the responsibility in case of any infringement of the Intellectual Property Rights of third parties.
---------------------------
CITE was notified by the author(s) that if the presentation slides contain any personal particulars, records and personal data (as defined in the Personal Data (Privacy) Ordinance) such as names, email addresses, photos of students, etc, the author(s) have/has obtained the corresponding person's consent.
CANeLearn Webinar - A Fall Like No Other (Part 2): Voices from the FieldMichael Barbour
Barbour, M. K., LaBonte, R., & Nagle, J. (2020, December). A fall like no other (Part 2): Voices from the field [Webinar]. Canadian eLearning Network. https://youtu.be/BV6DySJIzlA
Slides that introduce SoTL: what it is, some examples, and why one might do it. Presented to a few groups at Lakehead University in November 2019. Slides available to download w/o slideshare account: https://osf.io/xkw4g/
"OER Research Hub Overview" was presented by Beck Pitt at Thompson Rivers University (TRU), Kamloops, B.C. Canada on 26 May 2015.
This presentation was developed from the slide deck created and presented by Bea de los Arcos at Open Education Global in Banff and OER15 with the addition of slides and content focused on open textbook research.
Sponsored by SJSU's ECampus, Katherine D. Harris (Professor, English) presents a workshop for all faculty to dive into or upgrade their use of digital methods, skills, and tools in their courses. For definitions within this slide deck, please cite:
Frost Davis, Gold, Harris, DRAFT - Introduction, *Digital Pedagogy in the Humanities,* MLA (forthcoming 2019). Accessed April 9, 2019.
London International Conference in Education2015debbieholley1
This talk offers insights into the current policy 'churn' in the training of both primary and secondary teachers in England, and identifies a gap in provision - with schools spending increasing time developing teachers 'in-house', the ongoing continuous professional development (CPD) of the new entrants to the profession falls between the more formal offerings during in service training days (INSET) and the needs expressed by the trainees/NQTs themselves. Drawing upon the experience of a single University provider of trading in the east of England, covering a wide geographic area and liaising with well over 200 partner schools, three initiatives will be highlighted, critically examined and the implications discussed in the light of limited resource, potentially dis-engaged teachers in their first year in school (only 62% are teaching one year after qualifying) and the need to offer CPD in a more engaging, relevant and accessible manner. The Open Education Resource initiative offers engagement from a local to global stage; access to experts from different countries, and, significantly, offers educators from the Southern Hemisphere access to materials and resources they can share, opportunities to contribute to research initiatives and a forum to make their voices heard. Wider links to work based learning across professions are being explored in my new role at Bournemouth University.
Contact:
dholley@bournemouth.ac.uk
Personal:
Twitter: @debbieholley1
Website: drdebbieholley.com
Blog: hashtags, handheld and handbags
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This three-part series explores ways in which students would like to see the classroom evolve to meet the needs of today's learners. Each deck's content features an individual student's ideas.
Initial IdentificationWhen you hear the word college, you mighsamirapdcosden
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The project encourages Macomb Community College to increase the number of classes it provides to students, both in the physical classrooms and online. College is a time for self-discovery, and there is no better way to figure out one's capabilities and areas of interest than by enrolling in a wide array of subjects during your time there. Macomb analyses data on student learning to pinpoint areas that could benefit from altered rules and procedures. In order to improve the college's Academic Mobility Policy, data on student success is used. This policy establishes a procedure for ensuring that students are enrolled in the proper classes. The set course prerequisites must be met by all students enrolling in English composition, mathematics, reading, and English for Academic Purposes (EAPP) courses. The college has a "mobility period" in place to make sure that students are adequately positioned for success in these foundational courses. Math and English are the subjects where mobility happens the most frequently. As a student, I have participated in a diverse range of classes, and I never stop being astonished by the extent to which the topics overlap.
The Center for Teaching and Learning used the assessment results to provide additional opportunities and resources to support faculty initiatives to integrate communication-based teaching methods into their lessons. On the Macomb Community College Portal, a page titled "Using Assessment Results" was made with resources highlighting communication strategies faculty members can use. Workshops highlighting methods for assisting students in becoming successful researchers, thinkers, and writers in the disciplines were available as professional development opportunities. A book discussion on John C. Bean's book Engaging Ideas - The Professor's Guide to Integrating Writing, Critical-Thinking, and Active Learning in the Classroom was also provided by the Center for Teaching and Learning (2011). The focus of the faculty discussion was developing stimulating writing and critical thinking exercises and approaches.
For instance, completing classes in hi ...
This slide is special for master students (MIBS & MIFB) in UUM. Also useful for readers who are interested in the topic of contemporary Islamic banking.
Biological screening of herbal drugs: Introduction and Need for
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A Strategic Approach: GenAI in EducationPeter Windle
Artificial Intelligence (AI) technologies such as Generative AI, Image Generators and Large Language Models have had a dramatic impact on teaching, learning and assessment over the past 18 months. The most immediate threat AI posed was to Academic Integrity with Higher Education Institutes (HEIs) focusing their efforts on combating the use of GenAI in assessment. Guidelines were developed for staff and students, policies put in place too. Innovative educators have forged paths in the use of Generative AI for teaching, learning and assessments leading to pockets of transformation springing up across HEIs, often with little or no top-down guidance, support or direction.
This Gasta posits a strategic approach to integrating AI into HEIs to prepare staff, students and the curriculum for an evolving world and workplace. We will highlight the advantages of working with these technologies beyond the realm of teaching, learning and assessment by considering prompt engineering skills, industry impact, curriculum changes, and the need for staff upskilling. In contrast, not engaging strategically with Generative AI poses risks, including falling behind peers, missed opportunities and failing to ensure our graduates remain employable. The rapid evolution of AI technologies necessitates a proactive and strategic approach if we are to remain relevant.
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Operation “Blue Star” is the only event in the history of Independent India where the state went into war with its own people. Even after about 40 years it is not clear if it was culmination of states anger over people of the region, a political game of power or start of dictatorial chapter in the democratic setup.
The people of Punjab felt alienated from main stream due to denial of their just demands during a long democratic struggle since independence. As it happen all over the word, it led to militant struggle with great loss of lives of military, police and civilian personnel. Killing of Indira Gandhi and massacre of innocent Sikhs in Delhi and other India cities was also associated with this movement.
Francesca Gottschalk - How can education support child empowerment.pptxEduSkills OECD
Francesca Gottschalk from the OECD’s Centre for Educational Research and Innovation presents at the Ask an Expert Webinar: How can education support child empowerment?
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Water106: A cMOOC-like Approach to Issues-based Education
1. Water106: A Distributed Approach to Issues-based Education
Contents
Introduction
The All-or-Nothing Dilemma and the Curse of the One-off
Are Loosely-coupled Classrooms the Solution?
Low Threshold Activities: The Waterfeed Example
From Threshold Activity to Major Project: The Assignment Bank
Other Elements
Getting Involved
Introduction
As higher education faculty and staff, we talk a lot about interdisciplinary courses. We often talk
about“issues-based” education. And we’ve been talking a long time about these things.
And for good reason. We know that creating engaging, meaningful experiences for students involves
getting the students to connect what they learned in one course to what they learned in another. We
know they want to see the impact of what they learn in their everyday life, and understand how
disciplinary knowledge can help serve the greater good. “Problem-based” education is one of the most
studied (and recommended) practices of the past forty years. And I’ve been hearing about the “issues-
based” variant of PBL, where students study one issue in multiple classes through different disciplinary
lenses, for as long as I have been in higher education. The approach just makes sense.
The All-or-Nothing Dilemma and the Curse of the One-off
So why aren’t our campuses teeming with students studying global conflict through the multiple lenses
of psychology, literature, and statistics? Why aren’t the majority of our students coming into a freshman
year on climate change, tying together their work in history, geology, and political science?
It’s not because students don’t want it. On the contrary, almost every student I’ve presented this idea to
has been enthralled with it. They want to know where to sign up. They understand that meaningful
work on real issues will excite them, and that a single cross-course topic will help make the courses they
are less interested in more meaningful and relevant by connecting them to the ones they value.
And it’s not for lack of faculty who want to do this. I’ve worked at three public institutions in my career,
and visited many, many more. And everywhere I go I find faculty excited to connect their students to
real problems and real research. They are excited about the idea of a topic tying multiple courses
together.
But the two dominant models of accomplishing this change – curriculum revision and team teaching –
have proved largely ineffective at creating large-scale change.
2. Curriculum development around issues-based education is a massive shared governance undertaking
that has an equally massive chicken-and-egg problem. For plans to be implemented, faculty must see
the interests of their discipline are well-served by the plan. But the impact of a top-down revision of
curriculum that is not driven by departments or programs is likely to be so vast that it is hard to know
what the implications will be.
Without implementation, faculty can’t have a sense of where they would fit in an issues-based general
education program. Without a sense of where their disciplinary concerns would fit, they can’t approve
implementation. Depending on the culture of the institution, this leads to either gridlock or to surface
changes that do not actually impact what happens in the classroom.
Team teaching, where two courses are combined into one course and taught by faculty from different
disciplines, has had more success. Most people I’ve met who have team-taught across disciplines have
come out of the experience changed, true believers in the cross-course topic approach. But many have
also come away frustrated that, despite the success of the project, the project dies. Either the faculty
can’t coordinate schedules every semester, or the department pulls the faculty off of the project to
meet more pressing staffing needs. Again, the students give the course rave reviews, the faculty find it
transforms their work – and yet time and time again cross-disciplinary team-taught classes become just
another one-off, an experiment that never gains larger traction.
Are Loosely-coupled Classrooms the Solution?
It’s time for a better solution, one that allows faculty in typical undergraduate courses to engage with an
issues-based core on their own terms. One that allows an issues-based curriculum to grow, organically,
from the ground up.
3. Water106 is an internet-based, cross-institutional, cross-course community designed to empower
students and faculty who want to engage in an issues-based curriculum without gutting their existing
courses. Modeled largely on the ds106 Digital Storytelling project at the University of Mary Washington
and the design of early “connectivist” MOOCs, the Water106 structure provides students and faculty an
opportunity to engage in shared, meaningful, community-engaged tasks around issues of the culture,
policy, science, and technology of water. Unlike traditional approaches to cross-disciplinary teaching,
the model here is “loosely-coupled”, requiring up-front integration work by the project design team, but
almost no coordination between the individual faculty teaching the courses.
Water106 is organized around a number of shared tasks and assignments that students in various
courses complete. You can see some of those channels for activity in the screenshot above. The rest of
this paper will detail two of the channels – the Waterfeed and the Assignment Bank – demonstrating the
ways in which the “loosely-coupled” approach provides an attractive path for integrating important
issues into student coursework.
4. Low Threshold Activities: The Waterfeed Example
One of the activities that Water106 is structured around is called Waterfeed. What Waterfeed does is
use backend technology to collect dozens of stories a day on water policy, politics, history, science, and
technology from across the web. The backend looks like this, with fresh stories coming in as “drafts”.
The Waterfeed task is simple, yet meaningful. Students log in to the backend and pull new articles off
the stack until they find one of interest to them. They read the article, then write a one to three
paragraph summary of the work, optionally including personal commentary or analysis based on what
they have learned in class.
5. They then publish their summary, along with the link back to the original article, to the front page of
Waterfeed, where it appears along with all the other student contributions in a most recent article first
format.
6. Waterfeed will be a helpful reference to researchers, policy makers, and anyone else who wants to see
such news in a quick scan format. The real audience that Waterfeed serves also provides students
authentic motivation to take care with formatting, language, and style, as well as to write clearly and
carefully. Students can write under pseudonyms if they want to, but if they choose to write their
summaries under their own name, it also becomes an experience they can detail on their resume.
That’s the process. So, what classes might want to provide Waterfeed assignments to their students?
There a broad variety of potential courses. It could be a freshman writing course that has a global issues
outcome attached to it. Students in this case could use the site to learn how to summarize, a useful skill
that is linked to overall writing competency, while meeting a global issues outcome on work that has an
authentic component.
Across campus, students in an engineering class might be summarizing articles for a different reason. In
this class, year after year, the professor has found when it comes time to come up with a course project
idea her students tend to choose projects that don’t demonstrate an understanding of the pressing
problems in current water management. By sending students into Waterfeed to find and summarize two
articles each a week for the first six weeks of the class she is exposing them to the broad array of
problems and solutions currently in play. When project time comes, the students are more likely to
propose a project that has a real impact.
At another school entirely, students in a public policy class might be summarizing policy-centric articles,
and discussing them in their class. And here’s where things get interesting. The engineering students are
required not only to post summaries, but to read a number of posts on the feed and comment on them.
Reading one of the summaries, an engineering student notices that the public policy student has
7. misunderstood a crucial point about how water from underground aquifers is extracted. So they leave a
comment. Meanwhile, a student from an environmental studies course reads an engineering student’s
summary of a recent “manmade wetland” project in San Francisco, and asks if the engineer can explain
the math behind how engineers know if such projects will withstand flooding.
This is what we mean by loosely-coupled classes. None of these classes has made many compromises to
participate. No faculty had to sit together and hash out how to synchronize Week 6 of the course
between sections. Nothing required approval from the Faculty Senate. The process requires only that
the professor request an administrative account in the Waterfeed system so that they can add their
students as author/analysts to the site. That’s it.
Yet the sum of the parts is greater than the whole here. A summary blog managed only by one class
would have a difficult time gaining a real audience. But a summary blog maintained by multiple classes
has a serious chance at becoming a news destination. The backend infrastructure is too much to manage
for a single class. Yet for multiple classes the work starts to show some economies of scale. More
importantly, though the cross-disciplinary chatter is likely to be fairly minimal, the feeding of multiple
students from multiple disciplines into the same activity provides an awareness to students of the ways
in which different disciplines provide different ways of looking at the same problems. And perhaps most
importantly of all, this loosely-coupled, cross-institutional structure models how students are likely to
accomplish their work when they graduate.
From Threshold Activity to Major Project: The Assignment Bank
Much of Water106 is structured around the idea of providing multiple levels of possible engagement.
Waterfeed is important because it provides a broadly applicable activity that students can engage in on
a daily or weekly basis. The low threshold nature of the activity provides a way to keep the Water106
community going even when students are buried in class projects (they can still make time to do an
article or two). Additionally, because students can choose (with the guidance of their teacher) what
articles to summarize, Waterfeed can provide levels of challenge from writing up a short news “trend”
piece to summarizing a complex piece of research released by the EPA or UC Davis.
The Assignment Bank is similar in many respects. But whereas Waterfeed provided a single central
activity, the Assignment Bank provides a wide variety of assignments that allow students to explore
subjects at different amounts of depth.
A typical use case for the Assignment Bank looks like this. A student is told by their teacher that they
need to complete two “one-star” assignments and one “four-star” assignment. The student goes into
the Assignment Bank and flips through possible assignments. The four-star assignments are hard, the
one-star ones are relatively easy. The student decides to start with a one-star assignment.
Since the student is in a Geographic Information Systems class, the student goes to the GIS section of
the Assignment Bank where they find over 25 different one-star assignments, written and vetted by a
committee of GIS faculty and learning experts. They find a simple assignment they like: download a
phone app called Creek Watch, and monitor the level and state of a nearby creek over the week.
8. As part of this particular assignment, the student will not only post their data to Creek Watch, but will
look at the information on the Creek Watch site and write a post about the experience of participating in
a crowdsourcing project such as this. They will answer questions such as whether this is something
they’d continue to do and whether crowd-sourcing is a good method for such tasks.
They then click through and look at the work of the other students who have done this, and read some
of the presentations. There’s a range of quality in the work – some students have taken pictures of the
creek they are monitoring, put up videos, and written detailed reflections on the crowdsourcing
experiment, others have done a lot less. But the student can look at the best quality work and get a
sense of what top notch work looks like. They notice that other students have stated if they were to do
it again, they would have probably done it for several weeks rather than just one, because the one week
didn’t show enough variation, and they decide to stretch their observation out over three weeks.
Note that this is one of many assignments in the bank. If they don’t have a phone, they can pick
something else. If they don’t mind purchasing a $15 kit they can do the water testing assignment
instead. If they do mind, they can do the Google Maps resource mapping project. In each case, they can
see the work of the students before them, and read student reflections on that work.
The student then moves into the four-star GIS assignments, and considers doing the Water Rates /
Income Mapping Project, which maps known water rates against existing census data on median income
9. to portray on a map where people will be hit the hardest by rate hikes. Clicking through to previous
executions she’s excited by some of the cool maps people have come up with, and the interesting
findings. Someone has already mapped out her home county, but she figures she can build on that work
and do the county just to the north, which will make the data from both executions more meaningful.
Again, I cannot stress enough that participation can happen at any level. It is possible a professor
decides that his class is just going to do one assignment from the Assignment Bank – they may even pick
it for their students. As long as the students are posting it back to the community, the community
benefits.
The fundamental principles of the Assignment Bank in Water106 are listed below.
Other people’s attempts are visible, because assignments are conversations. Here is the main
point of the Assignment Bank. I go in as a student and look up an assignment. Perhaps the
assignment is a high-effort one, like testing my local water for certain chemicals and posting the
results on my blog. Here’s the key –when I look at that assignment, I can see all previous
attempts. The idea is that the previous attempts help me to better formulate how to do the
assignment, and perhaps improve on previous executions. In essence, my execution of the
assignment enters into conversation with other executions of the assignment. (I know, heavy
stuff – but everything from science to literature is a conversation, and that’s what we’re getting
at here).
Assignments are repeatable, and usually local applications. So one corollary of previous
attempts being visible is that assignments must be repeatable. They have to have multiple
answers depending where you are. The assignment can’t be to calculate the how long it would
take a Niagara-level flow to drain Lake Michigan, because once that is solved, it’s solved.
The great thing about this is that it privileges local application. In the water test example above,
as many people as want to do water testing can do it, because the results will differ based on
where you live and the conditions of your delivery system. Another example (from the policy
side) might be to investigate your local water rates and compare them to three other towns,
talking about the pros and cons of each rate structure. You may share the same locality as
someone else doing this activity, but again, as long as you choose different comparators you
cannot just copy work. And as example upon example is provided over time, the database of
rates and thinking about rates that is being generated makes the assignment more meaningful.
That’s worth thinking about for a second: in this framework, with hundreds of students
executing assignments in their own localities across the country, assignments get more
meaningful over time.
Assignments are non-sequential. This is a limitation, but assignments are set up so that they
can be executed in any order. Doing away with sequencing is essential to the loose-coupling
described above. If assignments have to be executed all at the same time or in the same order,
coordination of courses suddenly becomes almost insurmountably difficult, especially across
institutions. Assignments such as testing local water get around this by requiring a smaller set of
skills that the student is expected to acquire on a just in time basis.
10. Other elements
I’ve barely touched on other elements of the course:
WaterTV: a Web TV station that provides a way for students and others to present their projects
(and an opportunity for a student curated YouTube-based schedule of water-related
programming). Eventually a place that the classes could use to bring in both local and national
experts.
The Daily Data: a set of simple five minute activities that can be executed every day. Based on
the success of such internet staples as “take a photo a day” sites, the Daily Data gives students
small assignments they can complete in under five minutes, and then encourages them to share
them with the community. Projects might be as simple as taking and posting a picture of a
surface graded to direct runoff, or finding out what local watershed their water comes from.
This daily engagement with the course helps the student to connect the work they are doing to
their daily experience.
The Flow: the stream of student reflection and work posts from across the project, giving a
global view of who is doing what in classes across the world. The Flow helps students to get a
sense of what is happening in the course, and encourages them to connect with their fellow
students.
11. But all these activities more or less follow the patterns described above – they are conversational,
crowd-sourced, networked, and syndicated, a model not only of what a class can be, but of what the
working world is increasingly looking like.
Getting Involved
We are still building the technical architecture for Water106, and will launch in earnest for the spring
semester of 2014. However, there are already ways to participate:
If you are a professor at WSU Vancouver, trust me, I will be pitching this to you in person soon. But let’s
speed up the process. You can email me at michael.caulfield@vancouver.wsu.edu and we can meet and
talk about ways this project could help support your class. The Waterfeed portion is ready to go this fall,
so if that is interesting to you, we can put something together around that right away. We also need
people to help us populate the Assignment Banks with questions, find us guest experts for Water106 TV,
and help us work through the learning goals for the different disciplines.
If you are a teacher/professor not at WSU Vancouver who wants to integrate some of this into her high
school, undergraduate, or graduate class, contact me as soon as possible at
michael.caulfield@vancouver.wsu.edu. As stated above, I will be pitching this project to WSU Vancouver
faculty as they return for the fall semester, but the nature of this project is the more people that
participate the more benefit everyone derives from it. So we are very interested in getting a broad
institutional mix involved. We already have three or four tentative institutional commits for the spring.
If you are a student who wants in, but is not part of a class then just join up anyway. This is open
education; that’s how it works!
If you are an institute that deals with water policy, science, or engineering we would love your help
with this project. You need to do outreach, and we need to engage our students in their communities.
We’re just at the beginning of thinking how institutes and centers fit into Water106, but there seem to
be some really interesting possibilities. To the extent we engage in service learning and community
science projects, you may be able to show us where the fertile areas for exploration are.
If you are press,and are interested in the course concept, or think you might be a potential reader of
Waterfeed, contact me.
If you are none of the above we still want you. This is an open project, and we want everyone in.
Anyone can act as a student or a teacher. Maybe this is just a subject that fascinates you. Maybe you’re
a student leader interested in advocating change in campus water policy, and you want to use Water106
to raise awareness. Maybe you are a working water engineer who would like more insight into policy, or
a policy analyst who would like more insight into engineering. Whatever your reason, we want you hear.
We don’t judge, and we’re always looking for a new take on the issue. Again, contact me!