Assessment for Understanding: Taking a Deeper Look

EAST -- A Way Forward: Tech Inspires Self-Directed Learning

Beginning the Journey: Five-Year-Olds Drive Their Own PBL Projects

Project Learning

Start with the Pyramid: Real-World Issues Motivate Students

In this classroom, children use concrete, real-world examples to illustrate core knowledge.

by Diane Curtis

VIDEO: Project-Based Learning: An Overview

Running Time: 9 min.

Ask Seymour Papert, renowned expert on children and computing, why students are turned off by school, and he quickly offers an example:

"We teach numbers, then algebra, then calculus, then physics. Wrong!" exclaims the Massachusetts Institute of Technology mathematician, a pioneer in artificial intelligence. "Start with engineering, and from that abstract out physics, and from that abstract out ideas of calculus, and eventually separate off pure mathematics. So much better to have the first-grade kid or kindergarten kid doing engineering and leave it to the older ones to do pure mathematics than to do it the other way around."

In a growing number of schools, educators are echoing Papert's assertion that engaging students by starting with the concrete and solving hands-on, real-world problems is a great motivator. Ultimately, they say, such project-based learning that freely crosses disciplines provides an education superior to the traditional "algebra at age nine, Civil War at ten, Great Expectations at eleven" structure.

Students at Harlem's Mott Hall School design their kites on a computer before beginning construction.

Credit: Edutopia

Advocates also say that the availability of technology that can call up the knowledge of the world's best thinkers with the click of a mouse, that can graph in two seconds what once took hours, and that can put scientific instrumentation in a pocket-sized computer further argues for moving away from century-old models of instruction.

"Everybody is motivated by challenge and solving problems, and we don't make use of that in schools enough," says Bruce Alberts, distinguished cell biologist and president of the National Academy of Sciences (NAS). "Project-based learning gives everybody a chance to sort of mimic what scientists do, and that's exciting. And it's fun if it's done well."

Projects Run the Gamut

Examples of projects applicable to the here and now abound:

At Mountlake Terrace High School, in Mountlake Terrace, Washington, teams of students in a high school geometry class design a state-of-the-art high school for 2050. The students create a site plan, make simple architectural drawings of rooms and a physical model, draw up a budget, and write a narrative report. They present their work to real architects, who judge the projects and "award" the contract.
At Newsome Park Elementary School, in Newport News, Virginia, second graders curious about the number of medicines a classmate takes and her frequent trips to the doctor investigate -- with the classmate's permission -- the causes of cystic fibrosis. They invite experts to tell them about the disease, write up their research, use graphs and PowerPoint to tell the story, sell pledges to a cystic fibrosis walk-a-thon, and participate in the event.
At the Mott Hall School, in New York City's Harlem district, a fifth-grade project on kites involves using creative writing skills in poems and stories with kite themes. While designing their own kites on the computer and then making them by hand, students learn about electromagnetism and the principles of ratios and proportions. A casual remark by one student leads to an in-depth study of the role of kites in various cultural celebrations.

The Internet is one of a variety of resources used for project-based research.

Credit: Edutopia

The Big Picture

In project-based learning, students try to answer a question -- one that has relevance for them -- that is greater than the immediate task at hand. In its book Connecting the Bits, the NEA Foundation for the Improvement of Education gives the example of students at a Kentucky elementary school conducting surveys, doing research, building models, and taking field trips with the goal of determining the best kind of new bridge to build over the Ohio River.

Students conduct research using a variety of sources, from the Internet to interviews with experts. They work on the project over an extended period of time -- six weeks or more -- because of the in-depth nature of the investigation. Like adults trying to solve a problem, they don't restrict themselves to one discipline but rather delve into math, literature, history, science -- whatever is appropriate to the study.

"One of the major advantages of project work is that it makes school more like real life," says Sylvia Chard, professor of elementary education at the University of Alberta and coauthor of Engaging Children's Minds: The Project Approach, a popular guide for teachers and others on project learning.

"In real life, we don't spend several hours at a time listening to authorities who know more than we do and who tell us exactly what to do and how to do it," she says. "We need to be able to ask questions of a person we're learning from. We need to be able to link what the person is telling us with what we already know. And we need to be able to bring what we already know and experiences we've had that are relevant to the topic to the front of our minds and say something about them."

Chard doesn't like the term "project-based learning," because she says it implies a focus on projects to the exclusion of other legitimate learning methods; she prefers "project learning." "Younger children will play and explore as well as engage in projects," according to a statement at the Project Approach Web site. "Older children's project work will complement the systematic instruction in the program."

A student at the West Hawaii Explorations Academy measures the pH balance of water as part of a project to restore ancient ponds.

Credit: Edutopia

In-Depth Investigation

Chard defines project learning as an "in-depth investigation of a real-world topic worthy of children's attention and effort." She advocates a three-phased approach: Phase 1 involves an initial discussion of a project topic, including children's firsthand experiences related to the topic. Phase 2 involves fieldwork, sessions with experts, and various aspects of gathering information, reading, writing, drawing, and computing. Phase 3 is the presentation of the project to an audience.

The NAS' Bruce Alberts says one reason he believes project-based learning hasn't caught on more is that parents weren't taught that way. But many parents who witness the transformation of their children become ardent converts. "There's a visible hunger to learn," says Ingo Schiller, parent of two children at Newsome Park Elementary School, in Newport News, Virginia. "When we sit down to dinner, the kids talk nonstop for twenty minutes, telling us what they did and what they saw. This is literally every day!"

And conversations with teachers who use project-based learning in a meaningful way tend to use the same words: excitement, engagement, enthusiasm.

Fifth graders in Lackawanna, Pennsylvania, let Houston know they’re up to the Space Day design challenge.

Credit: Edutopia

A Host of Benefits

Enthusiasm alone isn't enough of a justification to advocate project-based learning, but the results of that enthusiasm argue in its favor, say educators and researchers who have studied or used project-based learning.

Kids who are excited about what they learn tend to dig more deeply and to expand their interest in learning to a wide array of subjects. They retain what they learn rather than forget it as soon as they disgorge it for a test. They make connections and apply their learning to other problems. They learn how to collaborate, and their social skills improve. They are more confident talking to groups of people, including adults. And, as a number of research reports suggest, project-based learning correlates positively with improved test scores, reduced absenteeism, and fewer disciplinary problems.

"I've seen test scores of students rise because of the engagement in project-based learning," says Gwendolyn Faulkner, former technology coordinator at Harriet Tubman Elementary School, in Washington, DC. "I saw my students mainstream out of English as a Second Language into the mainstream classroom. I saw my mainstream students scoring three and four grades above their grade level on standardized tests. I'm a convert."

Three Good Reasons

Eeva Reeder, the math teacher who led the project on designing a school for 2050, says she started project-based learning for three reasons: First, her students were not learning concepts deeply enough to apply or even remember them for a long period. Second, a growing body of research upheld the view that concepts are best understood using concrete examples constructed by the students themselves. Third, while taking a break from teaching to finish a master's thesis, Reeder took a job at a bridge-design company and realized, when she was asked to do a task, that she had never applied her knowledge of mathematics in a real-world situation.

A project on worms captures the imaginations of first graders in Newport News, Virginia.

Credit: Edutopia

"And that, fundamentally, was the final piece that shifted my thinking to the point where I realized I can't go back to the classroom and do things the same way I always have," she says.

If schoolchildren are given the gift of exploration, society will be the beneficiary, both in practical and in theoretical ways, scholars say. "This is the way that mathematics started," notes MIT's Seymour Papert. "It started not as this beautiful, pure product of the abstract mind. It started as a way of controlling the water of the Nile, building the pyramids, sailing a ship. And gradually it got richer and richer."

Diane Curtis is a veteran education writer and a former editor for The George Lucas Educational Foundation.

This article originally published on 11/1/2001

Process Approach Is Nothing New

Submitted by tom corcoran (not verified) on December 1, 2008 - 14:04.

Students learn more by doing than they do by listening. The theory that students will learn "better" by constructing their own knowledge while they solve a problem or complete a project has been around the track before. This used to be called the "process approach." Now we have new advocates with new buzz-words; but,it's still the same idea. Is a good idea?

The process approach is fun and it does engage students, especially the ones who find school little more than a place to meet friends. For them, learning by projects is the way to go. But what about the students that use the other side of their brains? On the other side of the coin are students who could do the entire project by themselves in the time it takes the other students to settle down. Are they to be brought down to the lowest common denominator to "help" their peers?

Different students have different learning styles. To praise one method, such as learning by projects, to the detriment of another, such as lecture and drill, misses the whole point of differentiation. Whenever I read articles calling for some new fad in learning, I take it with a grain of salt. Learning starts with the child, and they're all different!

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Thank you Mike for making

Submitted by Malikah Gregory (not verified) on September 28, 2008 - 09:57.

Thank you Mike for making those points about project-based learning. I also believe it means to show how what students are learning relates to prior knowledge or relates to the real-world first, before they are taught the lesson. I am a math teacher and I am a "mathematician" who has to find a way to teach it to students who think differently. There is also this belief with math teachers that if you say "project" it implies something that will take too much time and there won't be time to learn the topic. However, what I take from this approach is that it can be something small to motivate students. For instance, to find examples for relating percents and fractions, students could imagine they were surveying for a car company who wanted to know what color car the company should make the most. Then, students could go outside and count a sample of the cars in the parking lot. They could make fractions of each color and shown how it relates to percents. This is a short but investigative activity that can introduce students to a concept by linking it to the real world. I believe when they learn it in this way, you may actually save time from reteaching it because students don't understand what was given in terms of detached worksheets, etc.

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Project based learning for elementary students

Submitted by Stephanie Owens (not verified) on July 21, 2008 - 15:56.

As a teacher of gifted learners, my school embraces project based learning. For the past three years, I have used project based learning as an end of unit activity for the subject area in social studies. My students enjoy doing projects every nineweeks. I believe that this type of learning for young students offers them an opportunity to show what they have learned about a particular topic. This also helps the learner remember the content as well. For example, in the social studies unit Ancient Greece, I have had students to create a powerpoint on the greek gods and goddess, come in dressed up as Plato, and write reports about the Olympics. These are just second graders. In order for us to see the big picture, I believe if the curriculum gives teachers an opportunity to do it than high stake tests should give students an opportunity to show their creavity. In class, I always tell my students their is more than one way to solve a problem.

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Multiple typos are

Submitted by Cynthia Gran (not verified) on November 6, 2008 - 16:48.

Multiple typos are unacceptable for teachers.

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Exceeding expectations with project-based learning

Submitted by Christine Roberts (not verified) on July 17, 2008 - 10:54.

As a middle school teacher of Language Arts, I have witnessed the proof of applying project based learning to both student engagement and student learning. It has been my experience that in the PBL process, the student's projects usually exceeded my expectations. For example, students in my class are assigned to choose a book of their choice and create a movie trailer about the book. While I teach them the basics (I moviemaker), their products demonstrate a deep understanding of theme, character, plot, and setting and often demonstrate their ability to symbolize and understand symbolism, illustrate point of view and, by virtue of the product itself, a command of language. Clearly, the above is a brief synopsis of a lengthy process which involves student-directed inquiry. I do not, however, start with a lexicon of theme, plot, etc. Rather, the student discovers that the essentials of his storytelling are what we know of as the key elements in a novel. Thus, the learning is inductive, not deductive in nature.

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I use PBL in my classroom

Submitted by Kim (not verified) on May 25, 2008 - 17:36.

I use PBL in my classroom after teaching a skill. Students will use that skill in a real life situation. Re-design a room: Using magizines, measuring a room finding area for a rug and pricing it. Making a budget. Since I teach 6th grade I have to be direct with directions and later in the year get realaxed and let the students fill in extras. I always give students a skelton to work from and the more they do the better the grade and experience.

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teacher misconceptions on misconceptions

Submitted by Mike Brugh (not verified) on June 27, 2008 - 08:50.

I think there might be some misconception here…. You know, like when we teach students that the earth is round and some of them are thinking round like a plate when we are thinking round like a ball….

Correct me if I am wrong, but the author is advocating for teaching the “application” of knowledge and skills “first”… creating a context for learning all of the content and skills to hang on….When Papert says to, “Start with engineering, and from that abstract out physics,…” I don’t think he is advocating first teaching the definition of engineering; / the key areas of engineering/ important facts of engineering etc…. he is advocating that we start with a ill defined engineering related observation / problem / question or need and then, asking the students to figure out what is going on…. “What do we need to know to better understand the problem and then solve it….”

Teaching the knowledge and skills of measurement prior to re-designing a room is exactly what he is “not” talking about…(at least I hope not) Rather, he is advocating for a teacher to say to the class …. I don’t like how this room is designed…. Can you (students) help me figure out how to make it better??? Or better, yet ask the students what they think about “their” room…. And then see if you can get them to take ownership of the redesign process. If the teacher uses this instructional method they will get the students to ask questions like, “How much floor covering or paint will we need??” …and, “How much money do we have to spend on the redesign??” Then, the teacher has them…. The students are engaged because they have a need to know…. A teachable moment has been created…

It is perfectly understandable why most educators want to teach the foundation first and then give the students an opportunity to apply what they have learned …. In short, it is because that’s the kind of learners that most teachers are….The phrase, “we teach like we were taught” (or as my architect daughter just said, ‘monkey see monkey do’) actually has a much deeper meaning… Teachers are a highly selected “for” type of learner... The sorting and selecting process begins in the primary grades when those students that are able to “learn” (aka memorized and recite) the foundation knowledge and skills are rewarded with good grades and labeled as “good students.” The sorting process continues year after year until only the “best” at this kind of learning are allowed / encouraged to go on to higher education…. At which time the sorting continues… being taught by professors that came through an educational system that rewarded good grades which were based on memorization and recitation…. Now this is not the case for all teachers… There are many that managed to successfully get through the educational gauntlet… Many of these “non-traditional learners” were fortunate enough to have teachers / professors that were themselves “non-traditional learners” and they taught in a way that was consistent with these aberrant students’s learning style… Others persevered through countless hours of “remediation” which usually consisted of spending more time learning in a way that they did not learn best…until by sheer force of will they got it.

Now, I am sure I am going to upset a lot of math teachers / professors when I say this…. but here it goes… One of the biggest problems of students learning mathematics is that most secondary math is taught by mathematicians ….and, mathematicians just do not think and reason the same way that most people think and reason…(case in point; my college physics professor could not explain how to open a paper bag without going into a lecture on static equilibrium and vector analysis … at the end of the lecture I almost thought I did not know how to open a paper bag…) While I am on the subject I might as well get everyone mad at me …. So…..on the other end of the spectrum are the teachers that “don’t like math” (mostly as a result of being taught by mathematicians) being required to teach math….. Ironically, these teachers are being required to teach it in the same way that that caused them to not like math in the first place… Is it any wonder why so few students do well in math???

I know it is difficult to do…but give it a try…. Teach the context / application first and then help your students ask the important questions…It is just how most of us are genetically hard wired to think, reason and learn…

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idealism in the real world

Submitted by Ron Best (not verified) on November 27, 2008 - 21:46.

Conceptually your on target, unfortunetly more students go through the system under achieving. Why do they under achieve? Is it because someone demanded memorization of the multiplication tables. So, the students would have the skill base to process enough problems to gain mastery or the skill set to build off of. I can only speak for myself, my 6th grade students arrive with a 4th grade set of skills. Instead we have home enviroments that lack positive; reinforcement,role models, health and sanitary conditions. When students haven't been trained to think for themselves, question, inquire, think positive, be positive approach life with hope it is difficult to teach and nearly impossible for them to learn. I think your right about most a genetically hard wired to think and learn right up until it is sucked from us. The students I try to reach have had that hard wiring beaten from long before they set foot in kindergaten. What is needed is teams of teachers, community leaders, parent support groups, parents to embrace children first. I started teaching after I retired from the private sector. It is a calling, but when they reach 6th grade can't read with comprehension, have no vocabulary base, do not know what effort is, will not complete anything, have serious behavioral issues, parents who are bewilder with what to do and won't accept advice, it is a recipe for disater. Tell me again how I meet state standards at grade level for 24 of 32 students with these issues. First they have to listen (even if it's to themselves), then they need to belive (even if it's in themselves), finally they need to try (even if it is for themselves). I know I'm off track for PBL but like so many things it only works (for large numbers of students) if the students come to school prepared for the process and that the home environment supports such practices.

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PBL lesson plans

Submitted by Andie Rice North Pole, Alaska (not verified) on August 16, 2008 - 16:21.

I greatly appreciate your comments, especially relating to the idea of presenting the problem first and moving to the questions as they arise from the problem. I am limited in the fact that I don't know what kind of units to offer. I have the "recreate this room" unit in my mind, but more detailed lesson plans for this and other units would be very helpful. Do you have any web sites or links that would provide PBL ideas and steps to follow at the teacher/facilitator? Thank you!