O’zbekiston respublikasi oliy ta’lim, fan va innovatsiyalar vazirligi andijon davlat chet tillari instituti ingliz tili o’qitishning integrallashgan kursi kafedrasi chet tillarni o’qitishning integrallashgan kursi
Yüklə 3,85 Mb.
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- Bu səhifədəki naviqasiya:
- List of research questions Possible ways of collecting a quantitative data, if necessary
- paradigm 1
- Handout 1. Teacher problem-solving principles and techniques
- Model a useful problem-solving method
- Teach within a specific context
- Help students understand the problem
Activity 4 Time: 20 min Materials: Handout 4 Procedure: Ask participants to work in pairs and fill in the table (handout 4) with the questions/problems and disscuss: Is any qualitative data necessary to research any of the written research questions? If yes, how this data can be got? (students’ tests, questionnaires, etc.) What are the reasons of collecting quantitative data to research the question/problem? Ask participants to share filled table and report about the discussed answers to the stated questions. Possible answers: participants’ answers
Handout 1 Match the classroom investigation procedures with their definitions.
Handout 2 Here is a table giving the purpose of each procedure and some advantages and disadvantages. Which procedure is being described on each line? Put your answers in the box.
Handout 3 Put each of the headings {mixed; quantitative; qualitative) next to the paradigm where you think it belongs.
Handout 4 Fill in the table. And discuss the reasons of collecting quantitative data to research some of the questions/problems.
Handout 1. Teacher problem-solving principles and techniques Many instructors in engineering, math and science have students solve “problems”. But are their students solving true problems or mere exercises? The former stresses critical thinking and decisionmaking skills whereas the latter requires only the application of previously learned procedures. True problem solving is the process of applying a method – not known in advance – to a problem that is subject to a specific set of conditions and that the problem solver has not seen before, in order to obtain a satisfactory solution. Below you will find some basic principles for teaching problem solving and one model to implement in your classroom teaching. Principles for teaching problem solvingModel a useful problem-solving method. Problem solving can be difficult and sometimes tedious. Show students by your example how to be patient and persistent and how to follow a structured method, such as Woods’ model described here. Articulate your method as you use it so students see the connections. Teach within a specific context. Teach problem-solving skills in the context in which they will be used (e.g., mole fraction calculations in a chemistry course). Use real-life problems in explanations, examples, and exams. Do not teach problem solving as an independent, abstract skill. Help students understand the problem. In order to solve problems, students need to define the end goal. This step is crucial to successful learning of problem-solving skills. If you succeed at helping students answer the questions “what?” and “why?”, finding the answer to “how?” will be easier. Yüklə 3,85 Mb. Dostları ilə paylaş:
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