Tag: Innovation

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What Would Schools Look Like, If Students Designed the Schools?

Independent 4 As you watch this video, think about what could happen in schools, if adults got out of the way. 

You’ll hear students say things like,  ”A subject comes up that I don’t know about, and instead of glossing over it,  I truly find myself thinking was is that about? I could learn about it! I’m finding questions in everything.” And “We learned how to learn, we learned how to teach, we learned how to work.”

Of course, it’s easy to discount these kids as atypical. Marginalizing them is far easier than wondering why other high school students are stuck doing worksheets.

For more information on the project and associated lesson plans for students see:  ”Independence Day: Developing Self-Directed Learning Projects

 

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Education for Innovation or More Test Prep?

Intel is hosting an education digital town hall at the Newseum that will explore new ways to “cultivate tomorrow’s thinkers and entrepreneurs to sustain economic and educational success.” (December 7 at 8:45 a.m. – 11:45 EST) Participants include Education Secretary Arne Duncan; Angel Gurria, the Secretary General of the Organization for Economic Co-operation and Development; Rob Atkinson with ITIF; and Tom Friedman of the New York Times.

Let’s see how the Duncan sidesteps the issue of testing and innovation – while US students spend endless hours honing their test taking skills, the demand for routine skills has disappeared from the workplace. Anyone know of a meaningful and rewarding career that looks like filling out a worksheet? Maybe Friedman will be willing to tackle the stifling impact of testing on creativity thinking among our students. For my thoughts on the subject, see my post “As NCLB Narrows the Curriculum, Creativity Declines

“Education for Innovation” a live digital town hall 

Watch the video here.

You can submit questions you would like the moderators, PBS NewsHour’s Gwen Ifill and Hari Sreenivasan, to discuss with the speakers. Then, vote the questions you like best to the top. Click here

You can join the for the live, interactive webcast on Tuesday, December 7 at 8:45 a.m. – 11:45 EST or join the conversation at Twitter/InnovationEcon use the hashtag #Ed4Innovation
 

PISA-sample

 

More on the Program for International Student Assessment (PISA)

PISA is an assessment (begun in 2000) that focuses on 15-year-olds’ capabilities in reading literacy, mathematics literacy, and science literacy. PISA studied students in 41 countries and assessed how well prepared students are for life beyond the classroom by focusing on the application of knowledge and skills to problems with a real-life context. For a detailed example of how PISA assesses sequencing skills see my post “Why Don’t We Teach Sequencing Skills?

 

For more PISA questions in reading, math and science see my blog post “Are Students Well Prepared to Meet the Challenges of the Future?” You can find some great critical thinking questions to use with your students

 

Response to sample question
This short response question is situated in a daily life context. The student has to interpret and solve the problem which uses two different representation modes: language, including numbers, and graphical. This question also has redundant information (i.e., the depth is 400 cm) which can be confusing for students, but this is not unusual in real-world problem solving. The actual procedure needed is a simple division. As this is a basic operation with numbers (252 divided by 14) the question belongs to the reproduction competency cluster. All the required information is presented in a recognizable situation and the students can extract the relevant information from this. The question has a difficulty of 421 score points (Level 2 out of 6).

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How Does A School Foster Hope?

One of the best aspects of my work is that I get to meet many talented educators. I’m on the road this week, and I invited two of them to do guest posts. This second post is by James Steckart, Director of Northwest Passage High School. I met Jamie this past summer at the Project Foundry unConference.

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“Hope… which whispered from Pandora’s box after all the other plagues and sorrows had escaped, is the best and last of all things.”
~ Ian Cadwell (The Rule of Four)

Portage We can disagree whether hope is the best of all things, but let us suppose for a moment that Cadwell speaks the truth. What does hope give the student, the teacher, the parent, the community? Most parents wake up and hope that the lives of their children are better than theirs, whether they live in poverty or in opulence. The community hopes that its members contribute in some positive way to the better of the whole. Most children when they grow have real meaningful dreams of hope. Finally, most teachers hope that their work contributes to the healthy development of the students in their charge.

This concept of hope is common sense, yet most schools do not understand how they can produce hopeful students. In fact for a majority of students working their way through the a conventional school system, I would argue and data we have would suggest that their overall hope disposition decreases with the more time spent in school. Why would anyone stay in a place where their dreams, questions, and hope are called into question and disparaged?

Let’s look at a school where the concept of hope is front and center. At Northwest Passage High School (NWPHS) the mission of the school is simple: Rekindling our hope, exploring our world, seeking our path, while building our community. Embedding hope into our mission statement, we sought a way to measure this concept to see if we were fulfilling our mission.

NWPHS is a small progressive charter school where half of the day students work with their advisor designing projects that meet state standards, and the other half of the day they are in small seminar classes focused on an interdisciplinary topic involving field research and working with community experts. In addition, the school schedules between 30-45 extended field expeditions to further enhance learning. In a typical year the students travel and conduct research in a variety of urban and wilderness areas throughout the United States and 2-3 select international sites.

Each fall new students to our school complete the Hope Survey for new students, and each spring every student completes the ongoing Hope Survey. The survey measures student engagement, academic press, goal orientation, belongingness, and autonomy and is administered through an internet browser.

This allows us to get a sense of how much and whether hope is being grown. For us the longitudinal data confirmed what we knew in our hearts about our philosophy and methodology of working with high school students. Our ongoing students last year had a high hope score of 50.74 out of 64 possible. What lessons has this given us to share with others?

  • First, hope is built when you give students choice and autonomy. At NWPHS, project based learning gives students real choice while they meet Minnesota graduation standards. We track their learning with a sophisticated project management tool called Project Foundry.  
  • Second, we focus on building positive relationships with youth. We do this through intensive field studies, advisories, and service learning.
  • Third, we have faith that students will learn when you help them develop short and long-range goals through the use of continual learning plans and student run conferences which include the student, their advisor and at least one parent. These conferences last 30-45 minutes, and the student leads the discussion on their progress using their continual learning plan as the guide.
  • A student devoid of hope is a shell of a human being. They walk around listlessly living each day by the seat of their pants. Our job as educators, parents and community members it to instill a respect of these students and provide opportunities for hope to flourish.

Image: James Steckart

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Watch Problem Based Learning in Action: Apollo 13

This fall I’ve had the opportunity to lead many teachers on classroom walkthroughs in schools across the country. My approach is a “roving Socratic seminar” that uses brief glimpses of learning as a discussion starter for educators to reflect on their craft. For more on my walk through technique see my blog post  ”Teacher-Led Professional Development: Using Classroom Walk Throughs

apollo

One topic that always comes up on walkthroughs is something to the effect “… but don’t you have to teach the basics first,  before you can expect students to be able to think at higher levels?” There’s a persistent assumption that Bloom’s taxonomy is a one-way street. Analysis, evaluation and creation can only take place after a solid foundation of basics have been “installed” into the student’s knowledge base.

While our students have been conditioned to “learn the basics – then solve the problem,” that’s not how life always works. Most often we are confronted with problems that force us to go back and discover underlying foundational elements. Car won’t start… now what? 

Watch an infant getting into everything in the kitchen and you’ll realize that  kids are flexible learners, capable of moving fluidly between the basics and the problem. Every time our students play a new video game they confront a new environment with a unique set of interactions constrained by rules. Most often they have to discover how the game is played in a manner that mimics the scientific method – developing and testing hypothesis against their growing understanding of rules, functions, obstacles, rewards that underly the process of the game. Problem first, then basics.

When designing a lesson, teachers need remember that Bloom’s taxonomy is not a one-way street. It has multiple pathways and entry points – knowledge can be put into practice in a problem and a problem can be used to generate a body of knowledge. 

Need a good example of problem-based learning in action? Use this scene from “Apollo 13” as your walkthrough discussion starter. As you watch the clip think about the interaction of the problem and the basics.

  • Situation: An explosion forced the crew to shut down the command module and use the lunar module as a “lifeboat.” 
  • Problem: They needed to jury-rig a carbon dioxide filtering system for the lunar module.
  • Understanding the basics: What’s available aboard the space craft and how can it be used to modify the filtering system? 

 

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Curriculum for Excellence – Educational Policy That Values Students and Trusts Teachers

Curriculum for Excellence
Curriculum for Excellence

American education has been hijacked by policy makers who don’t trust teachers, unions that are over-protective of job security, a private sector eager to privatize, and a standardized testing regime that rewards test prep over genuine learning. In the middle of it all, bored students disconnect from school as they realize that their main function is to be trivialized into a source of data for adults looking for someone to blame.

While America educational leadership offers hollow sound bites about life-long learning, Scotland’s Curriculum for Excellenceoffers us insight into what American kids are missing. This video produced by the Scottish program offer a quick introduction to three project-based approaches. Here’s two quotes from the video that say it all:

~ A student,  ”When you’re just copying a text book … you’re looking at results which people have already achieved and proved their work…  but when you doing it yourself you get an idea of how things work … and what you actually need to make things successful.”

~ A teacher,  ”In this approach … your not teaching the subject in isolation – your teaching in a much more natural way … with greater depth and more enrichment… there’s an accessible point for every child in the class and they can build on that and take it in directions of their own personal interests.”