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There are three meaningful ways to develop empathy for others. One way is through interviewing, where you have conversations with your end users.

Another way to develop empathy is through observation;

A third way to develop empathy is by immersing yourself in other people’s’ experiences.

The scientific method, the writing process and design thinking all require that you are intentional about what you do and why you do it.

Design thinking creates this cycle of learning, where by immersing yourself into other people’s experiences, you learn to uncover more about yourself.

Observing, interviewing and immersing are only the first steps in the empathy work. The rest of the work includes interpreting what you see, hear, and experience, and making some leaps about what it all means.

One example is a strategy called “why laddering”, where you ask the question “why” several times in a row.

Once designers get to this important emotional information, they can start designing solutions to replicate these emotions.

Designing for others is an act of kindness and fidelity;

students would work with JeffDESIGN over the summer to learn valuable lessons about what it takes to get an idea from concept to production in the real world.

We have adopted the free and fabulous EPICS—Engineering Projects In Community Service—as the heart and soul of our program this year.

I love that the EPICS framework is just that—a framework. It provides a flexible structure I can modify as necessary to suit our processes and needs.

When we are done, we’ll have a powerful, document-driven, human-centered methodology to guide our work in design.

The new school year has gotten off to a good start. We’re creating an entirely new understanding of design thinking in Digital Shop, an amalgam of our shared past experiences and the practices of some of the world’s best design thinking practitioners. It’s ridiculously hard work, alternatively frustrating and exhilarating, but totally worth it.

The challenge, say the authors, is designing classroom observations that provide valid data on what’s happening day to day in classrooms, make meaningful distinctions among teachers, provide teachers with useful feedback, and support helpful, high-quality professional development.

I would suggest two more questions: First, are classroom visits announced or unannounced? If researchers don’t gather data on this, they are missing an important variable in the reliability of teacher assessment – teachers are likely to put on an especially good lesson when they know they’re being observed. Second, are teacher-evaluation rubrics used to score individual classroom visits, which is conceptually very difficult, or as end-of-year summations of multiple classroom visits with feedback conversations through the year?

Tomlinson and other proponents suggest that teachers differentiate by content (what is taught), process (how it’s taught), and product (how students are asked to demonstrate their learning).

students learn better, they said, when the work is at the right level of difficulty, personally relevant, and appropriately engaging.

trying to assess a teacher’s work asking, Is it differentiated? runs the risk of missing the forest for the trees. Better, says Marshall, to ask two broader questions (tip of the hat to Rick DuFour): -   What are students supposed to be learning? -   Are all students mastering it?

Good lesson plans build in multiple entry points, using the principles of Universal Design for Learning to make learning accessible to as many students as possible, and have clear goals; thoughtful task analysis; chunked learning; teaching methods appropriate to the content; links to students’ interests and experiences; checks for understanding; and accommodations for students with special needs.

a major factor in student success is a set of in-the-moment moves that effective teachers have always used, among them effective classroom management; knowing students well; being culturally sensitive; making the subject matter exciting; making it relevant; making it clear; taking advantage of visuals and props; involving students and getting them involved with each other; having a sense of humor; and nimbly using teachable moments.” But equally important is checking for understanding – dry-erase boards, clickers, probing questions, looking over students’ shoulders – and using students’ responses to continuously fine-tune teaching.

Timely follow-up with these students is crucial – pullout, small-group after-school help, tutoring, Saturday school, and other venues to help them catch up.

Among the most important life skills that students should take away from their K-12 years,” says Marshall, “is the ability to self-assess, know their strengths and weaknesses, deal with difficulty and failure, and build a growth mindset. Student self-efficacy and independence should be prime considerations in planning, lesson execution, and follow-up so that students move through the grades becoming increasingly motivated, confident, and autonomous learners prepared to succeed in the wider world.”

cold-calling actually increases students’ voluntary participation. “Cold-calling encourages students to prepare more and to participate more frequently,” said one researcher. “The more they prepare, and the more frequently they participate, the more comfortable they become when participating.”

If we don’t encourage students to come out of their shells for fear of putting them on the spot, we may be doing them a disservice… You’re curious about their views and their understanding of the issues being discussed. What they think is important – both to their own learning and to that of their peers.”

Drawing on two decades of data from the National Center for Educational Statistics, the authors found that between 1998 and 2010, the reading readiness gap closed by 16 percent and the math gap by 10 percent. The black-white and the Hispanic-white gaps also narrowed by about 15 percent.

the gaps closed because of rapid progress by low-income children, not declines in the readiness of high-income children, and the gains persisted at least through fourth grade.

What brought about the early reading and math gains? The authors believe several factors contributed: • The availability of high-quality, publicly funded preschool programs – the percent of U.S. 4-year-olds enrolled in state-funded preschools has increased from 14 to 29 percent from 2000. • The fact that more families are investing in books and other reading matter for children, as well as Internet access and computer games focused on reading and math skills. • More parents are spending quality time with children, taking them to local libraries, and engaging in learning activities at home.

Encouraging students to engage in inquiry, explore real-world contexts, and share their learning lies at the heart of PBL. As an instructional framework, it allows teachers to achieve these goals while still meeting curriculum requirements.

He used PBL to: Guide his students' problem solving Support their collaboration and critical thinking Provide voice and choice in how they demonstrated their learning Empower them to realize that their contributions to the community make a tangible difference

However, viewing PBL as a process rather than a product means that teachers can fit it within existing curricular objectives, as exemplified by Jodie Deinhammer.

According to the Stanford d-School process guide, design thinking begins with empathy: What do your students consider important? Which topics spark their curiosity? How might they want to engage with this specific content? How might they choose to demonstrate their learning?

In the next phase of design thinking, you define a problem. In school terms, this could be a curricular unit, a set of skills, or a broader community challenge.

With the problem articulated, start generating ideas. During the ideate phase, the goal is breadth because the answer may not be readily apparent. Many of these ideas then turn into prototypes, simplified versions of potential solutions.

This gives you the freedom to experiment without concerns about failing with students. When ready, produce the final lesson, unit, activity, or even a complete PBL experience.

Designate a sharing day or time when everyone gets to talk with the group about their projects.  Set up a Skype or Google Hangout with another school and have your students share their projects with them (hello joint design challenges!).

 Plan a school-wide Maker Fair where students can showcase projects they’ve created.

Come up with a name for your club together.  Design t-shirts.

project-based learning allows us to engage students at deeper levels, with challenging content.

Curriculum design is a perfect opportunity to include students

Only about six percent of teachers are ineffective, she continues. For the remaining 94 percent, the emphasis should shift from ratings to learning.

And what do we know about professional learning? That it requires: • Active intellectual engagement – That is, self-assessment, reflection on practice, and on-going conversations; • Trust – “Fear shuts people down,” says Danielson. “Learning, after all, entails vulnerability. The culture of the school and of the district must be one that encourages risk-taking.” • Challenge – “The culture must include an expectation that every teacher will engage in a career-long process of learning,” she says, “one that is never ‘finished.’ Teaching is simply too complex for anyone to believe that there is no more to learn.” • Teacher collaboration – PD and supervisory suggestions rarely drive classroom improvements, says Danielson. “Overwhelmingly, most teachers report that they learn more from their colleagues than from an ‘expert’ in a workshop… or being directed by a supervisor to read a certain book or take a particular course.” Most often, classroom improvement comes from working with colleagues analyzing student work and planning curriculum.

a new system should include: -   An emphasis on professional learning in a culture of trust and inquiry; -   A career ladder from probationary to continuing status after about three years; from that point on, the main emphasis becomes professional learning; -   Differentiation in the evaluation system, with novice teachers getting support from a mentor and being evaluated every year; -   Career teachers assessed periodically to ensure continuing quality; -   Teacher leadership positions (mentor, instructional coach, team leader) for which experienced teachers in good standing are eligible to apply; these come with training and support, extra compensation, or released time during the regular school day; -   The ability to identify seriously underperforming teachers, support their improvement, and if sufficient progress isn’t made, deny them tenure or continuing employment.

“Former service members tend to be committed to their students and tenacious in their efforts to improve,” say Parham and Gordon. Some early studies suggest that over time, veterans are stronger in classroom management, instructional practices, and student results.

Veterans who have had life-and-death combat experiences “tend to have low tolerance for petty politics in schools or for initiatives that seem unrelated to educating students. Former service members may sometimes seem overly assertive in discussions with colleagues.”

Veterans entering the classroom may feel like novices and have to adjust to their students not snapping to attention when given an order.

Veterans who are used to explicit operating procedures have to decode the unspoken expectations on how to relate to colleagues, handle student discipline, deal with parent concerns, get supplies, and get help.

“Discussions of shared experiences, shared values, and shared goals can help veterans and other teachers begin to build relationships.”

This might consist of a well-chosen mentor (similar to their “battle buddy” in the military), a support team (perhaps a grade-level or subject team that meets regularly), and a support network with other veterans in the school or district.

Veterans need an especially thorough briefing as they enter a new setting, including policies, procedures (copying machines, grading, and more), formal and informal rules, and a map of the school.

up to speed on teaching priorities, curriculum breadth versus depth, dealing with student differences, lesson planning, instructional materials, and, of course, discipline.

Support for this common challenge can come from peer coaching, observing expert teachers, workshops, articles and books, and seminars.

Rather, the mastery of new concepts happens in fits and starts. “Content should not be kept from students because it is ‘developmentally inappropriate,’” says the report. “To answer the question ‘is the student ready?’ it’s best to consider ‘has the student mastered the prerequisites?’”

Effective teachers make content explicit through carefully paced explanation, modeling, and examples; present new information through multiple modalities; and make good use of worked problems.

Effective teachers assign tasks that require explanation or require students to organize material in meaningful ways. Stories and mnemonics are also helpful in getting students to impose meaning on hard-to-remember content.

we shouldn’t push skeptical students to say, “Natural selection is one of the most important ways species came to be differentiated.” Better for them to say, “Most scientists think natural selection is one of the best explanations.”

Practice is essential to learning new facts, but not all practice is equally effective.

Frequent quizzes with low stakes, and students testing themselves, help establish long-term retention through the “retrieval effect.”

Each subject has basic facts that support higher-level learning by freeing working memory and illuminating applications.

Good feedback is specific and clear, focused on the task rather than the student, explanatory, and directed toward improvement rather than merely verifying performance.

To transfer learning to a novel problem, students need to know the problem’s context and its underlying structure.

Explicitly comparing the examples helps students remember the underlying similarities. With multi-step procedures, students need to identify and label the sub-steps so they can apply them to similar problems. It’s also helpful to alternate concrete examples and abstract representations.

Motivation is improved if students believe that intelligence and ability can be improved through hard work, and if adults respond to successful work by praising effective effort rather than innate ability. It’s also helpful for teachers to set learning goals (e.g., mastering specific material) rather than performance goals (competing with others or vying for approval).

Intrinsic motivation leads to better long-term outcomes than extrinsic motivation.

It’s difficult to gauge one’s own learning and understanding. That’s why students need to learn how to monitor their own learning through assessments, self-testing, and explanation.

Students will be more motivated and successful when they believe they belong and are accepted.

Teachers need to recognize and dispel a set of incorrect beliefs about teaching and learning: -   Misconception #1: Students have different “learning styles.” -   Misconception #2: Humans use only 10 percent of their brains. -   Misconception #3: People are preferentially “right-brained” or “left-brained” in how they think. -   Misconception #4: Novices and experts think in all the same ways. -   Misconception #5: Cognitive development progresses in age-related stages.

having students work in groups for 30-45 minutes coming up with test questions that might be used (or reworded) in the actual exam. This is a two-fer, says Lang: it not only gives students a sense of control over their learning but also serves as an effective review session.

Open assessments – This involves leaving 10 percent of the syllabus for an assignment that students create with the instructor.

Class constitutions – Having students collectively come up with ground rules for a course gives them a collegial sense of working together toward a shared purpose.

“Teaching evolutionary theory is not in and of itself religious indoctrination.” That’s because evolution is not a religion. “How could a religion have no beliefs about the supernatural? No rituals? No moral commandments?”

ask students to learn about evolution without insisting that they believe it.

Students learn new ideas by linking them to what they already know.

“It turns out children are better able to cope if they understand what they’re going through is normal, that it affects everyone, and that it will pass,” comments Adam Gamoran of the William T. Grant Foundation. “How we think about a stressful situation influences how we feel and how we perform.” Studies like this, he says, “show how deeply intertwined are cognition and emotion.”

use of Twitter in his middle-school science classroom

Connecting students to reputable, relevant scientific people and organizations in real time

Twitter as authentic audience – Students constantly tweet ideas, assignments, projects, suggestions, and photographs to each other, broadening the reach of their thinking.

Twitter as embedded literacy – Students get plenty of practice with succinct writing as they share analyses and observations.

Managing students’ encounters with objectionable material from the outside world, including occasional use of profanity and sexually suggestive follower requests.

Comparing services – Proportional reasoning, equations, creating and analyzing graphs, and number sense; -   Planning a budget – Organizing and representing information and number sense; -   Determining the costs and payoffs of higher education – Percentages, compound interest, and rates; -   Playing the Stock Market Game – Ratios, proportional reasoning, reading and analyzing reports and graphs, and algebraic thinking (e.g., gains and losses).

“The term generally refers to using a wide variety of hands-on activities (such as building, computer programming, and even sewing) to support academic learning and the development of a mindset that values playfulness and experimentation, growth and iteration, and collaboration and community. Typically, ‘making’ involves attempting to solve a particular problem, creating a physical or digital artifact, and sharing that product with a larger audience. Often, such work is guided by the notion that process is more important than results.”

problem-BL is still more often seen in the post-secondary world than in K-12, where project-BL is more common. Problem-based learning typically follow prescribed steps: Presentation of an "ill-structured" (open-ended, "messy") problem Problem definition or formulation (the problem statement) Generation of a "knowledge inventory" (a list of "what we know about the problem" and "what we need to know") Generation of possible solutions Formulation of learning issues for self-directed and coached learning Sharing of findings and solutions

By using problem-BL, these teachers feel they can design single-subject math projects -- aka "problems" -- that effectively teach more math content by being more limited in scope than many typical project-BL units.

Consider the mix of your testing formats: Combine traditional testing formats—multiple choice, short answer, and essay questions—with creative, open-ended assessments that can elicit different strengths and interests.

Tests aren’t just tools to evaluate learning; they can also alter a student’s understanding of a topic.

Instead of a single high-stakes test, consider breaking it into smaller low-stakes tests that you can spread throughout the school year.

When students take high-stakes tests, their cortisol levels—a biological marker for stress—rise dramatically, impeding their ability to concentrate and artificially lowering test scores

Time limits are unavoidable, but you can mitigate their pernicious effects on anxiety levels. “Evidence strongly suggests that timed tests cause the early onset of math anxiety for students across the achievement range,”

ask students to write their own test questions. 

Beyond test design, there’s the important question of what happens after a test. All too often, students receive a test, glance at the grade, and move on. But that deprives them, and the teacher, of a valuable opportunity to address misconceptions and gaps in knowledge. Don’t think of tests as an endpoint to learning. Follow up with feedback, and consider strategies like “exam wrappers”— short metacognitive writing activities that ask students to review their performance on the test and think about ways they could improve in future testing scenarios.

Providing some limitations, guidelines, restrictions can actually make us more creative, as we have to figure out how to make things work with what we’re given.

Giving them a little bit of guidance and limitation still providing plenty of room for creativity and imagination.

We have to find a balance between open-ended, free range exploration and guided learning in our makerspaces.  It can be tricky to figure out sometimes, but it’s worth putting the effort in.  A well-crafted design challenge can inspire amazing creativity.  Free-range learning gives students opportunities for imaginative play.  Both are crucial for creating an environment where students can discover, learn and grow.

Maker projects, however, are not intended to substitute as STEM programs. They frequently accomplish Criteria #2 and #3 and touch on other criteria to some degree. But their goals and focus differ from STEM.