The Level of ICT Infrastructure as a Factor of ICT Integration in Greek High School Science Teaching
This paper examines the extent to which the level of technological equipment affects the integration of the Information and Communication Technologies (ICT) in Greek high school science teaching. The limited ICT infrastructure environment, with only one computer‑projector system available and access...
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| Veröffentlicht in: | Electronic journal of e-Learning 2020-12, Vol.18 (6), p.562-574 |
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| creator | Apostolou, Charalampos |
| description | This paper examines the extent to which the level of
technological equipment affects the integration of the Information
and Communication Technologies (ICT) in Greek high school science
teaching. The limited ICT infrastructure environment, with only one
computer‑projector system available and access to the internet
(“PC‑VP” environment), is compared to the high level ICT environment
(“1:1” environment) where, in addition to the computer‑projector
system, each student has access to a computer and the internet. It
is a study relying on a relatively small dataset derived from
student answers to a questionnaire aiming to determine the degree to
which some of the “expected” ICT benefits reach the students. The
level of ICT integration is judged by the degree to which the ICT
benefits reach the students. That is, the more the ICT benefits
reach the students, the better – or the greater ‑ the ICT
integration is. The participants were eighty‑nine, 14‑year‑old
students who belonged in four different classes and the teacher who
taught Physics in those classes. The SPSS non‑parametric
"Man‑Whitney U Test" test was used to compare the statistical
distributions of student answers. The results show that, when the
applied teaching approach is used, the ICT integration is equally
successful in both environments. This questions the idea of
investing in “1:1" environments in the Greek public schools where
less student centered and inquiry oriented teaching approaches are
the norm. It also highlights the importance of the specific teaching
approach as an ICT integration tool in “PC‑VP” environments that
still exist in most Greek schools. |
| doi_str_mv | 10.34190/JEL.18.6.008 |
| format | Article |
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technological equipment affects the integration of the Information
and Communication Technologies (ICT) in Greek high school science
teaching. The limited ICT infrastructure environment, with only one
computer‑projector system available and access to the internet
(“PC‑VP” environment), is compared to the high level ICT environment
(“1:1” environment) where, in addition to the computer‑projector
system, each student has access to a computer and the internet. It
is a study relying on a relatively small dataset derived from
student answers to a questionnaire aiming to determine the degree to
which some of the “expected” ICT benefits reach the students. The
level of ICT integration is judged by the degree to which the ICT
benefits reach the students. That is, the more the ICT benefits
reach the students, the better – or the greater ‑ the ICT
integration is. The participants were eighty‑nine, 14‑year‑old
students who belonged in four different classes and the teacher who
taught Physics in those classes. The SPSS non‑parametric
"Man‑Whitney U Test" test was used to compare the statistical
distributions of student answers. The results show that, when the
applied teaching approach is used, the ICT integration is equally
successful in both environments. This questions the idea of
investing in “1:1" environments in the Greek public schools where
less student centered and inquiry oriented teaching approaches are
the norm. It also highlights the importance of the specific teaching
approach as an ICT integration tool in “PC‑VP” environments that
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technological equipment affects the integration of the Information
and Communication Technologies (ICT) in Greek high school science
teaching. The limited ICT infrastructure environment, with only one
computer‑projector system available and access to the internet
(“PC‑VP” environment), is compared to the high level ICT environment
(“1:1” environment) where, in addition to the computer‑projector
system, each student has access to a computer and the internet. It
is a study relying on a relatively small dataset derived from
student answers to a questionnaire aiming to determine the degree to
which some of the “expected” ICT benefits reach the students. The
level of ICT integration is judged by the degree to which the ICT
benefits reach the students. That is, the more the ICT benefits
reach the students, the better – or the greater ‑ the ICT
integration is. The participants were eighty‑nine, 14‑year‑old
students who belonged in four different classes and the teacher who
taught Physics in those classes. The SPSS non‑parametric
"Man‑Whitney U Test" test was used to compare the statistical
distributions of student answers. The results show that, when the
applied teaching approach is used, the ICT integration is equally
successful in both environments. This questions the idea of
investing in “1:1" environments in the Greek public schools where
less student centered and inquiry oriented teaching approaches are
the norm. It also highlights the importance of the specific teaching
approach as an ICT integration tool in “PC‑VP” environments that
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e-Learning</jtitle><date>2020-12-01</date><risdate>2020</risdate><volume>18</volume><issue>6</issue><spage>562</spage><epage>574</epage><pages>562-574</pages><issn>1479-4403</issn><eissn>1479-4403</eissn><abstract>This paper examines the extent to which the level of
technological equipment affects the integration of the Information
and Communication Technologies (ICT) in Greek high school science
teaching. The limited ICT infrastructure environment, with only one
computer‑projector system available and access to the internet
(“PC‑VP” environment), is compared to the high level ICT environment
(“1:1” environment) where, in addition to the computer‑projector
system, each student has access to a computer and the internet. It
is a study relying on a relatively small dataset derived from
student answers to a questionnaire aiming to determine the degree to
which some of the “expected” ICT benefits reach the students. The
level of ICT integration is judged by the degree to which the ICT
benefits reach the students. That is, the more the ICT benefits
reach the students, the better – or the greater ‑ the ICT
integration is. The participants were eighty‑nine, 14‑year‑old
students who belonged in four different classes and the teacher who
taught Physics in those classes. The SPSS non‑parametric
"Man‑Whitney U Test" test was used to compare the statistical
distributions of student answers. The results show that, when the
applied teaching approach is used, the ICT integration is equally
successful in both environments. This questions the idea of
investing in “1:1" environments in the Greek public schools where
less student centered and inquiry oriented teaching approaches are
the norm. It also highlights the importance of the specific teaching
approach as an ICT integration tool in “PC‑VP” environments that
still exist in most Greek schools.</abstract><cop>Reading</cop><pub>Academic Conferences International Limited</pub><doi>10.34190/JEL.18.6.008</doi><tpages>13</tpages><oa>free_for_read</oa></addata></record> |
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| ispartof | Electronic journal of e-Learning, 2020-12, Vol.18 (6), p.562-574 |
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| language | eng |
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| source | ERIC - Full Text Only (Discovery); Education Source; EZB-FREE-00999 freely available EZB journals |
| subjects | Access to Computers Broadband Classrooms Collaboration Communications technology Computers Education Educational Technology Elementary schools Foreign Countries High School Students High Schools Infrastructure Internet Internet access Learning Physics Program Effectiveness Projectors Public schools Science education Science Instruction Secondary education Secondary School Science Secondary schools Student Attitudes Student Participation Students Teachers Teaching Teaching Methods Technology Integration Technology Uses in Education |
| title | The Level of ICT Infrastructure as a Factor of ICT Integration in Greek High School Science Teaching |
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