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Maggie Verster

The nature and quality of the mathematical connections teachers make - 4 views

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    Current reforms in mathematics education emphasise the need for pedagogy because it offers learners opportunities to develop their proficiency with complex high-level cognitive processes. One has always associated the ability to make mathematical connections, together with the teacher's role in teaching them, with deep mathematical understanding. This article examines the nature and quality of the mathematical connections that the teachers' representations of those connections enabled or constrained. The researchers made video recordings of four Grade 11 teachers as they taught a series of five lessons on algebra-related topics. The results showed that the teachers' representations of mathematical connections were either faulty or superficial in most cases. It compromised the learners' opportunities for making meaningful mathematical connections. The researchers concluded by suggesting that helping teachers to build their representation repertoires could increase the effectiveness of their instructional practices.
Maggie Verster

The Intergeo Project - 5 views

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    The main objective of the Intergeo Project is to make digital content for mathematics teaching in Europe more accessible, usable and exploitable. Intergeo will... * offer content in a searchable and metadata-tagged portal. * enable users to use their software of choice by specifying a common file format based on open standards. * test available material in the classroom. All stakeholders, software teams, resource authors, teachers and learners will be involved, in order to promote quality enhancement cycles.
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    The main objective of the Intergeo Project is to make digital content for mathematics teaching in Europe more accessible, usable and exploitable. Intergeo will... * offer content in a searchable and metadata-tagged portal. * enable users to use their software of choice by specifying a common file format based on open standards. * test available material in the classroom. All stakeholders, software teams, resource authors, teachers and learners will be involved, in order to promote quality enhancement cycles.
Mary Avina

Teach Science and Math - 13 views

  • An interactive White Board (IWB) or SMART Board has the potential to deliver content better than traditional methods of teaching. Why? Because it provides multi-media functional interaction across audio, video, and computer media. It is also ideal for visual, auditory, and kinesthetic learners.
  • Ineffective Uses of IWBs
  • Teacher Centered Instruction
  • ...10 more annotations...
  • Canned Lessons
  • Effective Uses of IWBs
  • Effective Uses of IWBs
  • Effective Uses of IWBs
  • Drag and Drop
  • Hide and Reveal
  • Immediate Feedback
  • Matching Items
  • Most teachers lack adequate professional development on how to create and find quality interactive lessons, along with how to integrate the technology effectively into classroom instruction. This is the huge contributing factor as to why IWBs
  • IWBs or SMART Boards are used ineffectively in many classrooms.
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    An interactive White Board (IWB) or SMART Board has the potential to deliver content better than traditional methods of teaching. Why? Because it provides multi-media functional interaction across audio, video, and computer media. It is also ideal for visual, auditory, and kinesthetic learners. These qualities of an IWB also promote the dynamic delivery of content (if used to its full potential) in an engaging manner, which allows students to interact with science or math content their self. Examples include: * data manipulation * responding to data * even creating data So with all these attributes - "How are interactive white boards unsuccessfully used in science and math classrooms?" For the most part - not effectively!
Mike Kammerzell

How to Encourage Critical Thinking in Science and Math | Teaching Science and Math - 28 views

  • Viewpoint
  • Implication
  • How could you ask that question differently?
  • ...13 more annotations...
  • What did you learn from solving this problem?
  • Is this the most important question to ask when solving the problem?
  • What questions need to be answered before answering this question?
  • What does this presume?
  • When you ask these and similar questions, you are encouraging your students to move from passive to active learning.
  • Avoiding Questions Easily Answered on the Internet
  • The following examples are referred to “Google-Proofing” in some circles.
  • the frequency of questions is not as important as the quality of questions.
  • the following are factors to consider when asking students questions.
  • The average level of questions asked by teachers are 60 percent lower cognitive, 20 percent procedural, and 20 percent higher cognitive. 
  • Increasing the frequency of higher cognitive questions to the 50
  • With predominate use of lower cognitive questions; students tend toward lower achievement
  • The use of higher cognitive questions tends to elicit longer student answers in complete sentences, quality inference and conjecture by students, and the forming of higher level questions.
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    Encouraging students to use critical thinking is more than an extension activity in science and math lessons, it is the basis of true learning. Teaching students how to think critically helps them move beyond basic comprehension and rote memorization. They shift to a new level of increased awareness when calculating, analyzing, problem solving, and evaluating.
Garrett Eastman

MSP2 Middle School Portal - the network for middle school math and science teachers - 16 views

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    "supports middle grades educators with high-quality, standards-based resources and promotes collaboration and knowledge-sharing among its users. Educators use MSP2 to increase content knowledge in science, mathematics, and appropriate pedagogy for youth ages 10 to 15. MSP2 employs social networking and digital tools to foster dynamic experiences that promote creation, modification, and sharing of resources, facilitate professional development, and support the integration of technology into practice."
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