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Scientific inquiry causes students to use higher order thinking skills and learn science from a minds-on approach. Inquiry's foundation originates with John Dewey. In Dewey's book Democracy in Education (1916), he indicates that education begins with the curiosity of learners. Student curiosity and involvement in scientific inquiry moves them beyond passive learning to higher order thinking.

What I've encountered most in dealing with colleagues is the fear and the notion that this is just another five to ten year fad in education. It is important first to help others understand CCSS are not a quick-fix or an answer. In some ways, CCSS take us back to what good teaching looks. Ultimately, aside from the budgetary concerns with implementation, perhaps the other greatest struggle here will be the state-level assessment of the CCSS. In order for states to get it right, there needs to adequate time devoted to determining adequate assessment, not drill-and-kill. Broad, interconnected, higher-order thinking cannot be bubbled-in. Period.

Blooms Taxonomy Pyramid Bloom's Taxonomy defines six different levels of thinking. The levels build in increasing order of difficulty from basic, rote memorization to higher (more difficult and sophisticated) levels of critical thinking skills. For example, a test question that requires simple factual recall shows that you have knowledge of the subject. Answering an essay question often requires that you comprehend the facts and perhaps apply the information to a problem. I wish to promote the analysis the subject matter, perhaps by having students break a complex historical process or event into constituent parts. I particularly want students to organize and present pieces of historical evidence it in a new way, to create or synthesize an argument. In order to do so, students must evaluate evidence, making judgments about the validity and accuracy of primary sources.

"Reflection is thinking for an extended period by linking recent experiences to earlier ones in order to promote a more complex and interrelated mental schema. The thinking involves looking for commonalities, differences, and interrelations beyond their superficial elements. The goal is to develop higher order thinking skills."

Photo =gallery from the science fair at the White House. Science teachers should peruse these. I wish every student had to do a science fair project and we'd elevate project based activities to the "status" of doing well on an SAT or other test. I think these require a  lot more higher order thinking and problem solving. "President Obama hosts the White House Science Fair to celebrate the student winners of a broad range of science, technology, engineering and math (STEM) competitions from across the country. He met students in the East Garden of the White House, and they explained their science projects and experiments to him. Marvin Joseph / The Washington Post"

"Bloom's Taxonomy is talked about a lot in educational circles. However, if you believe a recent survey of visits to 23,000 U.S. classrooms, the higher-order thinking skills it's ideally designed to promote doesn't get much use."

Benefits for creating a classroom environment for student blogging begin with establishing a foundation for their success. Why is this important? Integrating blogs transforms a classroom into a learning community where students become self-directed learners and thinkers. This in turn, causes students to use higher order thinking skills as they create and post entries in their blogs, along with commenting on other student's blogs.

A framework for examining higher order thinking skills in a digital world

Analysis: How multimedia can improve learning\nNew research sheds light on students' ability to process multiple modes of learning

Important research about multimodal learning

adding visuals to verbal (textual and/or auditory) instruction can result in significant gains in basic or higher-order learning, if applied appropriately. Students using a well-designed combination of visuals and text learn more than students who use only text, the report says.

Expand your curriculum with our timesaving educational resources that use technology to improve instruction across all content areas and grade levels. Find current resources that align with standards, promote higher-order thinking, and support the development of writing skills. Monitor student research and writing, evaluate student performance, and create bilingual online lessons, classroom calendars, and quizzes in less time than traditional methods

The Reflective Principal: A Taxonomy of Reflection (Part IV) Reflection can be a challenging endeavor. It's not something that's fostered in school - typically someone else tells you how you're doing! Principals (and instructional leaders) are often so caught up in the meeting the demands of the day, that they rarely have the luxury to muse on how things went. Self-assessment is clouded by the need to meet competing demands from multiple stakeholders. In an effort to help schools become more reflective learning environments, I've developed this "Taxonomy of Reflection" - modeled on Bloom's approach. It's posted in four installments: 1. A Taxonomy of Reflection 2. The Reflective Student 3. The Reflective Teacher 4. The Reflective Principal It's very much a work in progress, and I invite your comments and suggestions. I'm especially interested in whether you think the parallel construction to Bloom holds up through each of the three examples - student, teacher, and principal. I think we have something to learn from each perspective. 4. The Reflective Principal Each level of reflection is structured to parallel Bloom's taxonomy. (See installment 1 for more on the model) Assume that a principal (or instructional leader) looked back on an initiative (or program, decision, project, etc) they have just implemented. What sample questions might they ask themselves as they move from lower to higher order reflection? (Note: I'm not suggesting that all questions are asked after every initiative - feel free to pick a few that work for you.) Bloom's Remembering : What did I do? Principal Reflection: What role did I play in implementing this program? What role did others play? What steps did I take? Is the program now operational and being implemented? Was it completed on time? Are assessment measures in place? Bloom's Understanding: What was

Scientific inquiry causes students to use higher order thinking skills and learn science from a minds-on approach. Inquiry's foundation originates with John Dewey. In Dewey's book Democracy in Education (1916), he indicates that education begins with the curiosity of learners.

Active learning has a powerful impact on student learning. How? Student achievement increases through mastery of science and math content as a result of this technique. Students also develop improved problem solving, communication, and higher order thinking skills.

Learning goes deep. Evidence of higher order thinking.  Real and substantive conversations.  Personal learning.  Autonomy, mastery, purpose, choice, self-direction. 21st century skills integration. Reflecting

"According to Flavell (1979, 1987), metacognition consists of both metacognitive knowledge and metacognitive experiences or regulation. Metacognitive knowledge refers to acquired knowledge about cognitive processes, knowledge that can be used to control cognitive processes. Flavell further divides metacognitive knowledge into three categories: knowledge of person variables, task variables and strategy variables."

Sternberg defined intelligence as mental activity central to one's life in real-world environments; individuals "succeed" in life when they use mental skills to adapt to, select, and shape external environments. Correspondingly, in the late 1990s, Sternberg changed the name of the theory to the Theory of Successful Intelligence. As per its original name, the theory comprises three types of intelligence: analytical (also referred to as componential); practical (also referred to as contextual) and creative (also referred to as experiential).

Great article from Rachel Jones

Great article from Rachel Jones

Students make connections with many science concepts and communicate their recommendations to officials and organizations regarding the future of artificial reefs.