By: Steve Gratz
I spent most of my teenage years working on the farm. My experiences there naturally taught me how to solve problems, and we referred to this as “common sense.” We would even use the term to describe our more astute neighbors and friends who used good sense and sound judgment in practical matters.
As I think about my days working on the farm, I realize the agricultural way of life was built on a solid foundation of solving problems. Confronted with a unique problem, I could engineer a solution or temporarily jerry-rig it until I could get back to the shop for a permanent solution. I also remember the time one of my friends made a delivery of construction materials to a client and during the delivery he realized that he forgot a large box of nails. Instead of driving 30-miles back to the company, he simply purchased the large box of nails at a competitor’s store. He used good sense and sound judgment – common sense.
Like many of my friends, I developed my problem-solving skillset through work-based learning experiences throughout high school. In fact, I can’t remember a time during high school where I wasn’t working and serendipitously honing my ability to solve problems in the context of real-world situations.
In my 30+ years of education, I have participated in my fair share of philosophical conversations. Most of these conversations focus on the teaching and learning process, but the conversations often bleed over to a more holistic discussion on education. Some of those conversations focus on how to teach students deeper thinking skills and the ability to solve problems.
One of the most authentic ways to help students develop deeper thinking skills and the ability to solve problems is through work-based learning experiences. Recently, I was meeting with education and business leaders at the North Central Ohio ESC. A local physician shared that one of his recent hires earned her medical assistant credential through her work experience and not through the traditional path of attending medical assistant training program.
Absent of the ability to have work-based learning experiences, educators can help students develop deeper thinking skills and the ability to solve problems by requiring them to solve realistic problems. This can be done easily by using the project-based learning approach promoted by organizations like the Buck Institute. Another example is the Southern Region Education Board’s Advanced Career model. Most project-based learning approaches call for designing and implementing challenging, authentic projects and assignments in the context of realistic problems, ideally with employer and business involvement.
The passage of Every Student Succeeds Act (ESSA) marked a major step toward ensuring all students are prepared to graduate from high school ready for college and careers. For example, districts may support efforts to integrate academic and technical content in the classroom that lends itself to students developing deeper thinking skills and the ability to solve problems. This can be done simply by developing and implementing coordinated instructional strategies that may include project-based learning and experiential learning opportunities for in-demand careers and occupations.
Here’s an example that provides a real-world application using the Pythagorean theorem. The picture below shows the formula for the Pythagorean theorem. In the picture below, side C is always the hypotenuse. Remember that this formula only applies to right triangles.
Students may be taught the Pythagorean theorem as illustrated, or the lesson could be enriched by making it a real-world application or, better yet, as part of a project-based lesson.
And here is how the theory is applied to roof framing in the construction industry where the Pythagorean theorem is referred to as the 3-4-5 rule.
This example is overly simple, but it is used to illustrate how connecting academic content standards to real-world applications can make the teaching and learning process more engaging and relevant for students. By helping students solve more real-world problems, students should begin to think more deeply about the standards they are learning.
One of the tenets of project-based learning is that the teacher helps students navigate through the learning process and assists students in solving problems, allowing them to take more responsibility for their learning – effectively teaching them to think for themselves. Teaching students to think more critically and to solve problems is a life skill that is immeasurably valuable to students.
I’m indifferent if it is called common sense, good sense and sound judgment, or the ability to solve problems; it is a life skill that needs to be integrated into all aspects of student’s education. It can even instill a sense of confidence in students, especially as they learn to apply this life skill to other aspects of their life.
Let’s teach students to think for themselves, solve problems and think critically.
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By: Julia Simmerer
State Superintendent Paolo DeMaria congratulates the educators who finished with the top 100 scores on Ohio’s Resident Educator Summative Assessment.
This fall, I had the pleasure of attending, along with nearly 300 other guests, an event at the Ohio Statehouse to honor the educators who finished with the top 100 scores on Ohio’s Resident Educator Summative Assessment (RESA) in each of the last 3 years. The event was hosted by Educopia, Ohio’s partner in developing and administering the RESA, and featured a string quartet from Dublin Jerome High School, refreshments and the opportunity for attendees to get to know fellow educators and administrators from all across Ohio.
So, what is the RESA? Successful completion of the assessment has been a requirement for all of Ohio’s Resident Educators seeking professional licensure in Ohio since 2013. In addition to required mentoring activities with experienced educators, this performance-based program includes four tasks that include submitting videos, lesson plans and student work from their classroom instruction. Successful completion is no small feat, as RESA tasks are less ‘busywork’ and more designed to capture and showcase the essential skills that make effective educators prepared for leadership in Ohio’s schools.
Congratulatory remarks were offered by distinguished guests that included State Superintendent Paolo DeMaria, Ohio Representative Andrew Brenner, national education policy expert and author Charlotte Danielson and Educopia CEO Mark Atkinson. The recognized teachers beamed with pride and graciously accepted this acknowledgment for their dedication to the teaching profession and Ohio’s children. Following formal remarks, it was great to see the speakers and awardees discussing the program, networking and posing for pictures.
It was inspiring to gather with this truly select group of teachers — they worked so diligently to become the top performers out of nearly 16,000 teachers who have taken the RESA since 2013. It was clear to those in attendance that the best is yet to come from this dedicated group of Ohio educators and classrooms will benefit from their efforts for decades to come!
Julia Simmerer is senior executive director of the Center for the Teaching Profession at the Ohio Department of Education, where she oversees the implementation of policies and programs that support Ohio’s teacher and leader corps. You can learn more about Julia by clicking here.
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By: Virginia Ressa
The new federal Every Student Succeeds Act (ESSA) places strong emphasis on evidence-based practices. The intention is that educators should use practices that have been proven to be effective through significant research studies. For example, in October I wrote about effective feedback which has been shown through multiple studies to improve student achievement. We know this practice to be highly effective in making learning goals or expectations clear to students. Being clear about learning expectations helps students focus and provides them with goals to work towards.
As we begin our transition to ESSA, I suggest we think about putting together two highly effective, evidence-based practices. Through Formative Instructional Practices (FIP) professional development, teachers find the value of using clear learning targets to teach academic knowledge and skills. Ohio schools use Positive Behavioral Interventions and Supports (PBIS), a proactive approach to improving school climate and culture that is evidence-based. PBIS helps schools establish positive expectations and classroom rules for student behavior. When we put FIP together with PBIS we have FIPPBIS… I’m just kidding – we do not need an acronym or fancy name to implement effective practices. When we put them together we have evidence-based practices we can apply to the teaching and learning of behavior.
Putting two practices we know are effective together – clear learning targets and behavioral expectations – would lead to the use of clear learning targets for teaching behavioral knowledge and skills. We could go beyond just posting “rules” to creating and sharing learning targets that would lead students to be able to meet the expectations of the rules. For example, we often post rules that are broad or even vague: “Complete classwork on time.” We expect students to meet this rule because we agreed on it as a class. And then, what happens when they don’t meet the rule? Students are often punished for not meeting classroom rules – a phone call home, maybe missing recess or detention.
But, what if we changed how we think of classroom rules? What if we thought of them like we do academic standards? When we have an academic standard we want students to meet, we make that standard clear to them and provide steps they can take towards mastery of the standard. If our expectation is for students to understand the causes of the Civil War, we would break that down into smaller steps, provide learning opportunities, assess student understanding and reteach if necessary. We can do the same thing with classroom rules.
Going beyond the posting of rules to breaking them into smaller behavioral learning targets can help us teach students how to meet the rule. We take the time to teach students academic content they don’t know, so why not take the time to teach students how to behave in a school setting? For instance, in order to complete their classwork on time, students need to know exactly what we mean – we need to make the expectation clear and possibly break it down into smaller steps. How do you make sure you complete your classwork on time? First, students need to know what “on time” means. Is it when class ends? What time does class end? Next, students need to practice budgeting their time and break large tasks into smaller steps. Students may also need to practice starting their work on time. Understanding and practicing these components will increase students’ ability to meet the behavioral expectation.
When I reflect on my time teaching middle school, I remember struggling with students not following rules. I thought my rules were clear and I even engaged students in writing the rules. After learning about PBIS, I realized that my rules were negative and included “don’t do” or “no” to this or that. Clear learning targets could have broken down vague and ambiguous rules into smaller, clearer expectations.
Take a minute to think about the rules in your classroom. Are your students meeting the rules? Are they stated positively? What if you thought of the rules as standards and taught students how to meet them? Could you increase students’ ability to meet the expectations in your classroom and school?
Virginia Ressa is an education program specialist at the Ohio Department of Education, where she focuses on helping schools and educators meet the needs of diverse learners through professional learning. You can learn more about Virginia by clicking here.
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By: Chris Woolard
When I talk to my family and friends about the work we do at the Ohio Department of Education, it usually only takes a few minutes for their eyes to glaze over. And while I believe that technical conversation about curriculum, standards, assessments and results is important, that conversation doesn’t always capture the reality of what is happening in schools and what it means for our kids. That is why it is so important to think through some practical examples and how the system builds toward students’ future success.
As I did in my previous blog post, I find it helpful to think of this through my role as a parent. So in non-technical terms…what is all this stuff parents are hearing about? Standards are the things that my kids need to know and be able to do, and these things are important to their future success. The curriculum is the way a school chooses to teach that important information and is selected by teachers, schools and districts — not the state. Schools in different parts of the state may choose to teach this information in different ways. State tests are an important marker in gauging how well students are learning this info. School and district report cards give parents and communities information on how well schools are doing. And all these pieces build on each other.
So, let’s look at some real examples…
Ohio's Learning Standards are essentially statements of important things that we think that all Ohio students should know and be able to do. There are some really important things that 4th graders need to know. The fourth grade math standards have a focus on measurement and data. Some of the specific standards include:
Solve problems involving measurement and conversion of measurements from a larger unit to a smaller unit.
Know relative sizes of measurement units within one system of units including km, m, cm; kg, g; lb, oz.; l, ml; hr, min, sec.
Use the four operations to solve word problems involving distances, intervals of time, liquid volumes, masses of objects, and money, including problems involving simple fractions or decimals, and problems that require expressing measurements given in a larger unit in terms of a smaller unit
Apply the area and perimeter formulas for rectangles in real world and mathematical problems. For example, find the width of a rectangular room given the area of the flooring and the length, by viewing the area formula as a multiplication equation with an unknown factor.
So in fourth grade, students should know the various measurement units and be able to apply them — this is an important real-world skill. Many schools are now implementing standards-based report cards that give parents feedback on how well students are progressing on these standards.
Then at the end of fourth grade, students take Ohio’s State Tests, which examine how well fourth graders can demonstrate knowledge of those standards. Here is an example from the spring 2016 fourth grade test:
In that example, students are demonstrating their knowledge of these measurement units.
But that is not the end of the story, the system builds on these concepts as students progress through their school years. In seventh grade, middle schoolers are performing more complex calculations. In this example from the spring 2016 seventh grade test, students are asked to apply knowledge of measurement to a circle:
As students continue to progress, the standards help them prepare for life after high school. All students will be taking the ACT (and/or the SAT), and many will be moving on to college. Here is a practice question from the ACT:
Remember that standard from fourth grade where students must “Apply the area and perimeter formulas for rectangles in real-world and mathematical problems”? Here they are, demonstrating that exact same knowledge on the ACT.
The skills and knowledge that students gain early in their school lives builds and prepares them for success. Standards-based report cards give feedback on progress along the way. The state gives school report cards that let parents and communities know how well schools and districts are doing with these important content standards. So for example, the community can see how well students are doing on those fourth grade standards such as working with units of measurement of distance, weight and time. In this example, the school is meeting expectations in fourth grade math:
My middle child is now in fifth grade, but he worked on those important skills last year and I am glad he did. He is going to need them.
Sometimes, discussion of education policy is technical, but education is really personal. It is about our kids and making sure they are ready for the future. Visit these links for more information on Ohio’s Learning Standards, assessments and report cards.
Chris Woolard is senior executive director for Accountability and Continuous Improvement for the Ohio Department of Education. You can learn more about Chris by clicking here.
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By: Guest Blogger
In today’s technology-driven world, the role of the student is changing. Teaching used to be focused on learning facts, but now we are changing how we teach so that students can do more than just learn information…they use the information! Students today are less fact-memorizers and more innovators, creators and thinkers. They are learning to think outside the box and apply that to real-world problems. Because of this, we have seen a recent influx in the last four to five years in the amount of “computer programming” seen in both elementary and secondary schools.
Computer programming allows students to learn programming languages, which are integral to many jobs of the future. Programming (also known as “coding”) allows students to learn skills like explanatory writing, problem solving and a plethora of other skills applicable to the real world as a 21st century student. It also lets students refine their mathematics abilities. With coding, students are using computers to create worlds where only their imaginations can limit them.
Computational thinking is a cornerstone in all coding programs today. This step-by-step cognitive strategy is important for students to learn in order to become successful. It is a method that teaches students to think as if they are computers. With computational thinking, students are taught how to approach new information and new problems. Trust me…this strategy is not just for computer science classrooms! It is broken down into four steps: decomposition, pattern recognition, abstraction and algorithms.
Decomposition is when you break something down into its basic parts. This is an important skill because it teaches students how to become better learners by breaking large pieces of information into small chunks. It’s like taking small bites of a steak instead of trying to eat the entire steak in one gulp.
Pattern recognition is when students find order to something and then analyze (follow) the pattern to the logical answer. Pattern matching teaches students to look for commonalities between things. Then, once students see what is the same in the problem, they also can look for differences that might lead them toward an answer.
As humans, we tend to search for patterns in things in order to make sense of them. I find that this step is the easiest and most natural to teach to students. We teach children to sense and continue patterns from an early age.
Abstraction is taking the differences that students have found in the last step (pattern recognition) and then discounting them because they didn’t fit the pattern. Abstraction is important because students typically assume that all the information they have been given in a problem is typically going to be used to solve the problem, which isn’t necessarily true.
Removing unfit or unhelpful information is truly a valuable skill for students to have. It’s not only teaching them to double check information; it’s also teaching them to edit themselves and look for true solutions to a problem.
An algorithm is basically a list of procedural steps to complete a task. With this process, after figuring out the problem, students create steps to solve the problem set before them. Students should be able to write algorithms so that anyone can follow their directions to complete the task or solve a problem.
Why the computational thinking method?
As a K-6 computer teacher, I was first introduced to the concept of computational thinking through the Code.org curriculum that teaches computer science skills to students in grades K-5. Since then, many more learning modules have been added to cover more grade levels, but the foundational skills remain the same. All of my computer science students in grades K-5 learn the basics of computational thinking as well as giving step-by-step directions (algorithms) with this program.
I can honestly say that the first introduction to this lesson was difficult for even my higher level of students. As educators (myself as well), we tend to give students problems without teaching the method of problem solving explicitly. This method not only helps students with math and science challenges, but it helps them to become better thinkers across the board. Additionally, teaching students this cognitive strategy gives them something (in my experience) that is lacking in education today: dedication. The steps involved with computational thinking help students to “keep working” or “keep trying” to solve a problem. Our society tends to deliver information and solutions at the speed of light, so our kiddos aren’t used to sitting down and working toward a solution for an extended period of time — or sitting down and working at a problem that takes longer because it could have multiple solutions. Dedication and conviction to one’s work is most definitely a skill of the 21st century.
Why the four steps?
After teaching this method for a few years now, I have found that my students are much more detail oriented because they have learned how to decompose a problem. Breaking a problem into parts allows students to better explain their thoughts and ideas to both myself and each other. In that way, students also turn into better explanatory writers. This also is true for the algorithm step in the process. Breaking down a problem (decomposing) and then turning it into directions (algorithms) are key skills that can be used across subjects.
Additionally, the concepts of pattern matching and abstraction are ideal for an educational setting, especially when you understand how the brain works. When we learn a new topic, we put it into a category in our brain (activate a schema/prior knowledge). This is like pattern matching — we are looking for other things with the same pattern somewhere in our memory bank. Research says that activating schema helps students understand and remember information better because it fits into a pattern or category we already comprehend. In this way, I believe that teaching students to pattern match and abstract teaches them to put things in categories in their brains so that they cannot only comprehend and remember the problem at hand, but they can process it easier as well.
Below I have listed some links for resources on this concept. Check out the Code.org Lesson on Computational Thinking as an introduction. There is an accompanying video that helps to explain the concept very well!
Teachers Pay Teachers Products
Children’s Literature (K-5)
Megan Brannon is a K-6 computer teacher at Garaway Local Schools. You can contact Megan by clicking here.
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