As we change journalism education, we need to study journalism learners

After years of exhortation and industry convulsions, journalism education is changing. The argument for infusing digital  media education – even programming — into the journalism curriculum is over. The questions are mostly logistical – what type, in what sequence, how much and to what ends? Driven largely by business needs, college newspapers are becoming sites of experimentation with new business and management models. Professional news organizations are expanding their relationships with journalism schools beyond their traditional roles as providers of internships and first employers. In some cases, they are collaborating on beat coverage and special investigations. In at least one instance, the local professional news outlets have physically moved on campus.

At the graduate level, Medill’s Innovation program helped spawn Narrative Science, a company that programs robots to generate stories. We faculty at small programs, who have thinking through what these changes mean for institutions like ours, finally have our own journal, Teaching Journalism and Mass Communications. The 2013 edition of Georgia Tech’s groundbreaking Computation + Journalism Symposium will likely drive the conversation even further.

All signs of progress, but something important is being lost amid the frenzy.

As former President George W. Bush famously put it, “Rarely is the question asked, ‘Is our children learning?'” Mindy McAdams speaks for many of us who have spent years looking for ways to infuse digital skills into the journalism curriculum:

“We can offer a course that focuses on Web technologies — HTML, CSS, JavaScript, etc. But there is no data journalism in that class. And a lot of the students are going to hate typing those little brackets and so on. They’ll be so happy when that course is done and they never have to do that again.

“Moreover, they won’t practice what they learned, and very soon, they will forget all of it.

“We can offer a course about scraping and doing stuff with large data sets. We can teach students how to find stories in data. Students who like this, who learn how to do it and want to continue doing it, are probably among those most likely to get a journalism job. Like the Web technologies course, though, this is a class that many students will either avoid like the plague or take and then count the minutes until it’s over.”

Please, please read the whole post. She points to a real challenge that we haven’t yet cracked: how to engage students who think that journalism is about writing, not math or technology. Students who have convinced themselves that writing is something they are inherently “good” at, while math and tech are something they are inherently “bad” at. Students who don’t see why they need to understand html when they can just use a wysiwyg platform to build a website.

And my colleague and friend Michelle Johnson adds another layer: too often, the students who are least successful in adapting to journalism’s digital evolution are students of color, apparently another manifestation of the racial achievement gap. She writes:

“[F]or the past 20 years, I’ve read literally hundreds of applications for journalism training programs and scholarships, as well as for admission to journalism school. And sadly, I’m seeing some troubling signs.
“This isn’t just hand-wringing about a decline in writing skills among young people with short attention spans who communicate via texting abbreviations — I’ve noticed that among all the students.
“Simply put, I’m seeing that many of the students of color lack experience with the tools and technologies that will be fundamental to journalism innovation going forward. And this comes at a time when funding for training programs for students of color has shrunk, along with the bottom lines of the news industry and professional associations.”

These are exactly the concerns that keep me awake at night, even as I champion interactive journalism as a way of bringing members of under-represented groups into computing fields. (I’d also add working-class students to Michelle’s list, by the way.)

I would submit that amid our frenzy to learn and then incorporate all the skills that our graduates need into our curricula, we need a better understanding of what students absorb, and what affects their sense of self-efficacy as they confront the unexpected skills and content we are asking them to learn. That’s part of what I’m hoping to better understand with the new research project that I’ve embarked upon with Dr. S. Monisha Pulimood, of TCNJ’s Computer Science Department. The formal title is TUES: Collaborating Across Boundaries to Engage Undergraduates in Computational Thinking.(NSF Award #1141170). As we state in our abstract:

“To adequately prepare a workforce for the changing economic and global landscape, the project is developing a model that enables students with diverse perspectives and disciplinary backgrounds to learn how to collaborate and integrate concepts from their respective fields to develop technology-based solutions for complex real-world problems.”

It’s a tall order that we’ve set ourselves, and we are grateful to have Diane Bates, our independent evaluator, on board to help us assess what we are doing.

I’ll share more specific information about our project as it develops, but for now, I want to share some specific questions that I’m working through about integrating computational thinking and integrate it into journalism classes.

What’s the right learning environment to support computational thinking in journalism?  One of the posts that I wrote for a 2010 series about my own early exposure to skills that are currently classed as computational thinking began with this prologue:

“There are, at least, two approaches to education: the mimetic approach and the mathetic approach. The mimetic approach emphasizes memorization and drill exercises and is most efficient in inculcating facts and developing basic skills [Gar89, p. 6]. The mathetic approach stresses learning by doing and self exploration; it encourages independent and creative thinking [Pap80, p. 120]. In the mimetic framework, creativity comes after the mastery of basic skills. On the other hand, proponents of the mathetic school believe that self discovery is the best, if not the only, way to learn…”

Educational Outlook,”

Sugih Jamin, Associate Professor, EECS, University of Michigan

Whether taught in a classroom or newsroom, journalism education tends to be mimetic, while approaches to engaging novices in computing tend to be mathetic. We introduce students to specific routines and rigors of reporting, emphasizing adherence to rules of attribution, AP style, divisions of genre and structure (hard news, features, inverted pyramids, nut grafs, and so on.)  We stress the importance of getting the story right the first time, and then admit that there will likely be corrections and emendations as a breaking news story develops. We do these things for good reason: flubbing the fundamentals can not only get a reporter fired, it can lead to lawsuits, or in extreme cases, endanger innocent lives and reputations. Consequently, journalism students and professionals learn to think of every thing they do in highly instrumental terms, especially when it comes to learning what they need to know to ensure that they will get or keep a job.

By contrast, programming environments for novices such as Scratch or Alice are very successful at making introductory programming concepts more accessible. However, their strategy for engaging learners emphasizes play in ways that can be off-putting to journalism students who feel a need to quickly learn how to assemble a professional product. In the past, I’ve used Scratch in two ways – as a first step in learning Flash (something I’ve abandoned since Adobe made Mindy McAdams’ Flash Journalism text obsolete, and experts such as Mark  Luckie began pooh-poohing it as an important skill for journalists.) I’ve had some success teaching Scratch in game design courses, and I may think about using Alice for this purpose in the future, since its most recent iteration is specifically designed to give students a leg up Java, and that can be useful to aspiring app developers.

Do we need a journalism-specific programming environment to engage novice journalism students?

There are other, more mimetic, web-based learning environments for learning to code, such as Udacity.com’s CS `101 course, which focuses on Python and teaches students how to build a web scraper. There is an appeal to that approach because it has students build something that has obvious practical use in journalism. However, that course is arguably vulnerable to the criticism made by Bret Victor of platforms such as Khan Academy and CodeAcademy – that is, that they emphasize rote skills, while programming is “a way of thinking.”

Might it make sense to create a hybrid learning environment that combines the low barriers to entry of Scratch or Alice, with the goal orientation of something like Udacity? Will we begin to succeed at teaching programming as a way of thinking if we can more closely articulate between these learning environments and our broader journalism education curricula? (Here I am speaking of curricula not only for the classroom, but also for professional training.) Will novice programmer journalists be more motivated to learn in an environment where they can see direct connections between what their growing computing knowledge, the specific journalism artifacts they are learning to create, and the marketable skills they are developing? If so, what is the best way to create these linkages?

Is learning scripting really a gateway to computational thinking? The notion that journalism students should learn to “code” has gained increasing acceptance, but what that means and how one learns to do it are not universally understood. For several years, I’ve taken a position similar to the one that Miranda Mulligan took in a September 5, 2012 essay for NiemanLab:

I am not arguing that every single writer/editor/publisher who learns some programming should end up becoming a software engineer or a refined web designer. The end goal here is not programming fluency. However, there’s a lot of value in understanding how browsers read and render our stories. Reporting and writing a story, writing some code (HTML, CSS, Javascript), and programming complex applications and services are all collections of skills. A fundamental knowledge of code allows for:

  • More significant conversations about digital presentation, ultimately leading to better, more meaningful, online storytelling. Understanding your medium makes you better at your craft.
  • Deeper thought and understanding of data. Learning more about what goes into writing and programming software teaches you to think in terms of abstractions, functions, parameters, components, frameworks, object classes, templates, and more.

What Mulligan is referring to here as code (html, css, javascript – or more likely, jquery) is not programming, but web scripting, and as Mindy McAdams noted earlier, doesn’t get students digging into data. Having taught html and css for several years in our Writing for Interactive Multimedia class, my TCNJ colleagues and I can attest to all of the challenges that McAdams cites.

But there may be an additional unexamined assumption here, that learning scripting leads to the kind of computational fluency that, as Mulligan puts it, “teaches you to think in terms of abstractions, functions, parameters, components…”  I would submit that we need data to support this hypothesis. I certainly agree with her intuitively, but we need to know. These are some of the things we hope to learn in our research project, but there is lots of good work to be done to understand what, if any correlations exist between learning to script and learning to think computationally about the creation of journalism artifacts.

What do we know about the success of CAR courses that teach Excel,  SPSS, Access and SQL? The one place in the journalism curriculum that has come closest to teaching something like computational thinking has been in Computer Assisted Reporting classes (which these days, of course, is arguably a redundant term.)  A syllabus repository for some of these courses is here. We’ve had a required CAR course at TCNJ for 10 years. Many of these classes required that students minimally learn to use Microsoft Excel and Access (something I required when I taught it in the early 2000s). Some also incorporated SPSS and SQL. I don’t know of anyone who has studied these courses to assess the degree to which they affect students’ computing efficacy, programming skill, or acquisition of computational thinking concepts such as abstraction, decomposition, data structures, etc.

We could also use some research on the viability of such classes as points of articulation with emerging computational journalism curricula in computer science. One hopeful example is the work done by my TCNJ colleagues Donna Shaw and Emilie Lounsberry on the development of a database manager, GUMSHOE, that tracked the  disposition of gun-related arrests through the Philadelphia courts, ultimately contributing to an award winning story package on endemic problems in the Philadelphia court system.

These are just some of the questions that I think could lead to fruitful education research. I have others, such as questions about the possible role of stereotype threat on the achievement gap issues that Michelle Johnson cited, and whether learning science might help us better illuminate the real gaps in understanding and engagement that have many of us classroom teachers worried. As I’ve learned from talking to learning scientist  Deborah Tatar, making assumptions about why whole groups of people aren’t grasping particular concepts is often a big mistake.

Much, much more to be learned. I’m hoping that what has been, until now, an understandably ad hoc and organic effort develops into an area of systematic study.

New Article: Computational Thinking and Expository Writing in the Middle School

Ursula Wolz, Meredith Stone, Kim Pearson, Sarah Monisha Pulimood, and Mary Switzer. 2011. Computational Thinking and Expository Writing in the Middle School. Trans. Comput. Educ. 11, 2, Article 9 (July 2011), 22 pages. DOI=10.1145/1993069.1993073 http://doi.acm.org/10.1145/1993069.1993073

ABSTRACT

To broaden participation in computing we need to look beyond traditional domains of inquiry and expertise. We present results from a demonstration project in which interactive journalism was used to infuse computational thinking into the standard curriculum and regular classroom experience at a middle school with a diverse population. Outcomes indicate that we were able to develop positive attitudes about computational thinking and programming among students and teachers who did not necessarily view themselves as “math types.” By partnering with language arts, technology and math teachers at Fisher Middle School, Ewing New Jersey, we introduced the isomorphism between the journalistic process and computational thinking to 7th and 8th graders. An intense summer institute, first with the teachers and then with students recruited from the school, immersed them in the “newsroom of the future” where they researched and wrote news stories, shot and edited video, and developed procedural animations in Scratch to support their storylines. An afterschool club sustained the experience. The teachers adapted interactive journalism and Scratch programming to enrich standard language arts curriculum and are infusing computational thinking in classroom experiences throughout the school.

This research was supported by a grant from the National Science Foundation.

Interdisciplinary Computing Blog: Interdisciplinary Computing Meeting Number 2: Day 1, Part 1

Liza Kaczmarscyk does a nice job of capturing the first day of discussion at our meeting on Creating a Climate for Interdisciplinary Computing. The discussion on computational journalism to which she alludes was initiated by yours truly and Rich Gordon from the Medill School at Northwestern University. Other journalists here include Jonathan Tracy from the AP, Michelle Ferrier from Elon University, and Barbara Iverson from Columbia College, Chicago.

Sidebar: Learning about learning – a conversation with Deborah Tatar

Dr. Deborah Tatar, Virginia Tech
Deborah Tatar, cognitive scientist at Virginia Tech

Deborah Tatar is a cognitive scientist at Virginia Polytechnic University whose current research focuses on understanding and clearing the obstacles to student learning in mathematics and science. For example, she was a principal investigator on the SimCalc project, a software-based interactive math curriculum for middle schoolers that has shown demonstrable success when accompanied by professional development for teachers. She is a collaborator on the CPATH Distributed Expertise project for which I am a co-PI.

In this conversation about what it takes to bring students from under-represented groups into computing, Tatar cautions against easy generalizations and simplistic solutions, offering intriguing possibilities for ways in which we can assist learners in finding the paths to understanding that are most appropriate for them.

Tatar’s insights remind me of Georgetown University math professor Jim Sandefur’s use of “think-alouds” – recorded interviews with students who explain their thought processes while working on math problems. It also echoes and complements the insights from Visible Knowledge Project, spearheaded by Randy Bass during the last decade. I was a researcher in that project in the early 2000s. My research project for VKP, “Blogging on the Beat” details my action research project on whether having journalism students keep blogs will lead deeper and more richly-sourced reporting.

This interview is part of my work in progress: The Re-Education of Me: Journalism, Diversity and Computing. Pearson, a long-time professional writing practitioner and educator, is using auto-ethnography and literary journalism to probe the implications of the transformation of journalism by computer science for journalism education. This interview was recorded at the National Science Foundation’s CE 21 community meeting in New Orleans, Lousiana Jan. 30, 2011.

View the interview (Quicktime file, runtime about 26 minutes)

From the NSF CE21 community meeting: Meet Lily Fae Pierre

I spent the last several days in New Orleans with 400 computer science educators, education researchers and policy makers at the National Science Foundation’s CE 21 community meeting. CE 21 is a new initiative to boost K-16 computer science education. Central to that effort is a commitment to strengthen computer science curricula and teaching at the high school level.

One of the most interesting people I met there was Lily Fae Pierre, a computer science teacher at Los Angeles High School. A former industrial engineer who became interested in technology as a resul of growing up on a family farm in Mississippi, Pierre uses chants and cheers to educate and engage her students. She allowed me to record one of her routines: