NO är frågan : Lärare och elevers frågeställande under NO-lektioner

Andersson, Malin

January 2016

This study examines what kinds of questions teachers and students ask during science lessons in three primary schools in Sweden. The study is based on the following questions: What kinds of questions do the teachers ask? How do the teachers describe the question asking behavior they use in the lessons? How do the teachers follow up students' answers? What kinds of questions do the students ask and how do teachers handle these inclass? This is a qualitative study based on interviews of four primary school teachers and observations of their Science lessons, covering topics as the solar system, electricity and the lives of the magpie and the squirrel. The theoretical frame of the study is social constructivism, which focuses on how knowledge is constructed in the social context of the classroom through language and other semiotic means. The questions asked by teachers and students are classified into two levels (high-order and low-order questions) based on Bloom's taxonomy. The results of the study shows that teachers mostly ask low-order questions during these lessons and that they ask three times as many questions as the students. In lessons where more “abstract” topics were discussed, such as the solar system, the low-order questions were more frequently asked by the teachers. The students asked questions when they were “invited” to do so and they asked more high-order questions during lessons where “abstract” topics were discussed.

student questions

teacher questions

science

LOQ

HOQ

primary school

Elevers frågor

lärares frågor

naturkunskap

LOQ

HOQ

grundskolan

Learning Chemistry at the University level : Student attitudes, motivation, and design of the learning environment

Berg, C. Anders R.

January 2005

<p>The main purpose of the research this thesis is based upon was to study students’ attitudes towards learning chemistry at university level and their motivation from three perspectives. How can students’ attitudes towards learning chemistry be assessed? How can these attitudes be changed? How are learning situations experienced by students with different attitude positions?</p><p>An attitude questionnaire, assessing views of knowledge, learning assessments, laboratory activities, and perceived roles of instructors and student, was used to estimate students’ attitude positions. It was shown that a positive attitude was related to motivated student behaviour. Furthermore, it was shown that factors in the educational context, such as the teachers’ empathy for students learning chemistry, had affected the students. It was also found that students holding different attitude positions showed different learning outcomes and differed in their perceptions of the learning situation. Students’ holding a more relativistic attitude more readily accepted the challenges of open experiments and other more demanding tasks than those holding a dualistic attitude.</p><p>In addition, the teachers were found to play important roles in the way the tasks were perceived and the development of students’ ideas. In studied laboratory activities open tasks resulted in positive student engagement and learning outcomes. Preparative exercises, such as a computer simulation of the phenomena to be investigated, affected students’ focus during laboratory work, encouraging them to incorporate more theoretical considerations and increasing their ability to use chemical knowledge. Finally, it was shown that students’ focus during laboratory work is reflected in the questions they ask the teacher, implying that questions could be used as tools to evaluate laboratory teaching and learning processes.</p><p>The findings imply that students’ attitudes towards learning and motivation, and the design of learning situations, are key factors in the attainment of desirable higher educational goals such as the ability to judge, use, and develop knowledge. For universities encountering students with increasingly diverse attitudes, motivation and prior knowledge, these are important considerations if they are to fulfil their commissions to provide high quality learning environments and promote high quality learning.</p>

laboratory work

open experiments

attitude

university level

motivation

cognitive load

laboratory instruction styles

attitude change

design of learning situation

student questions.

Learning Chemistry at the University level : Student attitudes, motivation, and design of the learning environment

Berg, C. Anders R.

January 2005

The main purpose of the research this thesis is based upon was to study students’ attitudes towards learning chemistry at university level and their motivation from three perspectives. How can students’ attitudes towards learning chemistry be assessed? How can these attitudes be changed? How are learning situations experienced by students with different attitude positions? An attitude questionnaire, assessing views of knowledge, learning assessments, laboratory activities, and perceived roles of instructors and student, was used to estimate students’ attitude positions. It was shown that a positive attitude was related to motivated student behaviour. Furthermore, it was shown that factors in the educational context, such as the teachers’ empathy for students learning chemistry, had affected the students. It was also found that students holding different attitude positions showed different learning outcomes and differed in their perceptions of the learning situation. Students’ holding a more relativistic attitude more readily accepted the challenges of open experiments and other more demanding tasks than those holding a dualistic attitude. In addition, the teachers were found to play important roles in the way the tasks were perceived and the development of students’ ideas. In studied laboratory activities open tasks resulted in positive student engagement and learning outcomes. Preparative exercises, such as a computer simulation of the phenomena to be investigated, affected students’ focus during laboratory work, encouraging them to incorporate more theoretical considerations and increasing their ability to use chemical knowledge. Finally, it was shown that students’ focus during laboratory work is reflected in the questions they ask the teacher, implying that questions could be used as tools to evaluate laboratory teaching and learning processes. The findings imply that students’ attitudes towards learning and motivation, and the design of learning situations, are key factors in the attainment of desirable higher educational goals such as the ability to judge, use, and develop knowledge. For universities encountering students with increasingly diverse attitudes, motivation and prior knowledge, these are important considerations if they are to fulfil their commissions to provide high quality learning environments and promote high quality learning.

laboratory work

open experiments

attitude

university level

motivation

cognitive load

laboratory instruction styles

attitude change

design of learning situation

student questions.