Nanotechnology in high school curriculum.
Data
2014-11-13
Autorzy
Tytuł czasopisma
ISSN
Tytuł tomu
Wydawnictwo
Abstrakt
The progress in teaching should be in accord with the progress of science, that’s
why the subject of teaching must be supplemented by the elements of modern
knowledge which permit pupils to understand better what happens around us. The end
of XX century is characterised by the rapid development of nanotechnology, which is
deal with in this paper.
Development of the science in the end of the XX century and at the beginning of
the XXI century is presented in Introduction. The research problem, aims and base of
doctoral thesis are presented in the first chapter. The second chapter is connected with
project of solution, it means with the analysis of “teaching contents”. The operational
aims, basic theorems and “didactic matrix”, which shows logical relations between
nanotechnology elements are presented in this chapter. Pedagogical and psychological
base of doctoral thesis is depicted in the third chapter. There is teenager characteristic –
the age of pupils, when we can introduce this kind of concepts. The main quantum
mechanics concepts are presented in third chapter too. The physical, psychological and
pedagogical point of view formed the basis for research. Experimental part is contained
in fourth chapter. General education system in Poland and 4th educational stage is high
school as a level, where is the possibility to increase the use of mathematics are shown
in the first subsection of fourth chapter. The second subsection of fourth chapter
contains the survey for teachers results. There are concepts indicated by the teacher,
which should be introduced to the curriculum of science subject in high school. The
hypotheses and the methods used in the research are presented in the third subsection of
the fourth chapter. Research conditions are indicated in the fourth subsection of the
fourth chapter. There are taken into account the following categories: type of class,
different backgrounds, average mark in a class. Preliminary research conclusions from
all classes are shown in the fifth subsection of the fourth chapter and final research
conclusions from all classes are shown in the sixth subsection of the fourth chapter.
Conclusions from the doctoral thesis are in the last chapter. There is summary and
deduction if the working hypothesis is proved.
References, annexes (Physics core curriculum, survey for teachers, test for
pupils, lessons, and agreement to the cooperation with schools) and author Curriculum
vitae are at the end of this doctoral thesis.