Title | Author | Year | SCOPUS | PUBMED | ISI | TCI | |
---|---|---|---|---|---|---|---|
1. | Design of interactive computer-based laboratory tool for inquiry-based learning environment | Srisawasdi, N. | 2011 | ||||
2. | Development of a constructivist web-based learning system with student personalized conceptual profile | Srisawasdi, N. Panjaburee, P. |
2012 | ||||
3. | Effect of learning by simulation-based inquiry on students' mental model construction | Srisawasdi, N. | 2012 | ||||
4. | Transforming pre-service teachers' technological pedagogical and content knowledge through a case-based ICT module | Srisawasdi, N. | 2012 | ||||
5. | Criteria and strategies for applying concept-effect relationship model in technological personalized learning environment | Panjaburee, P. Srisawasdi, N. |
2013 | ||||
6. | Developing learning activity based on the learning cycle approach to promote students' understanding of square root | Panjaburee, P. Srisawasdi, N. |
2013 | ||||
7. | Effect of simulation-based inquiry with dual-situated learning model on change of student's conception | Srisawasdi, N. Panjaburee, P. |
2013 | ||||
8. | Guideline for the development of personalized technology-enhanced learning in science, technology, and mathematics education | Panjaburee, P. Srisawasdi, N. |
2013 | ||||
9. | Students' motivation of science learning in integrated computer-based laboratory environment | Srisawasdi, N. Panjaburee, P. |
2013 | ||||
10. | Use of an interactive computer-simulated experiment to enhance students' mental models of hydrogen bonding phenomena | Srisawasdi, N. | 2013 | ||||
11. | A Blended learning environment in chemistry for promoting conceptual comprehension: A journey to target students' misconceptions | Niroj, S. Srisawasdi, N. |
2014 | ||||
12. | An evaluation of macro-micro representation-based computer simulation for physics learning in liquid pressure: Results on students' perceptions and attitude | Buyai, J. Srisawasdi, N. |
2014 | ||||
13. | An investigation of relationships between biology attitudes and perceptions toward instructional technology in analogy-based simulation on light reaction | Pinatuwong, S. Srisawasdi, N. |
2014 | ||||
14. | Designing educational computer game for human circulatory system: A pilot study | Lokayut, J. Srisawasdi, N. |
2014 | ||||
15. | Development of Digital game-based biology learning experience on cell cycle through DSLM instructional approach | Kanyapasit, P. Srisawasdi, N. |
2014 | ||||
16. | Do they keep technology in mind? An implementation of TPACK-oriented science teacher program for science degree-graduated students | Srisawasdi, N. Panjaburee, P. |
2014 | ||||
17. | Effects of gender differences and learning performance within residence energy saving game-based inquiry playing | Panjaburee, P. Srisawasdi, N. |
2014 | ||||
18. | Implementation of student-associated game-based open inquiry in chemistry education: Results on students' perception and motivation | Meesuk, K. Srisawasdi, N. |
2014 | ||||
19. | Investigating correlation between attitude toward chemistry and motivation within educational digital game-based learning | Nantakaew, N. Srisawasdi, N. |
2014 | ||||
20. | Investigating factors affecting conceptual learning progression when playing digital game-based inquiry learning for energy education | Panjaburee, P. Srisawasdi, N. |
2014 | ||||
21. | Promoting students' physics motivation by blended combination of physical and virtual laboratory environment: A result on different levels of inquiry | Piraksa, C. Srisawasdi, N. |
2014 | ||||
22. | Students' self-efficacy and acceptance toward context-aware ubiquitous learning in biology education: A case of photosynthesis in plant | Nasaro, C. Srisawasdi, N. |
2014 | ||||
23. | Technology-enhanced chemistry learning and students' perceptions: A comparison of microcomputer-based laboratory and webbased inquiry science environment | Kamtoom, K. Srisawasdi, N. |
2014 | ||||
24. | The effect of simulation-based inquiry on students' conceptual learning and its potential applications in mobile learning | Srisawasdi, N. | 2014 | ||||
25. | A learning cycle approach to developing educational computer game for improving students' learning and awareness in electric energy consumption and conservation | Panjaburee, P. Srisawasdi, N. |
2015 | ||||
26. | A contextual online game based on inquiry learning approach for improving students' learning performance in a chemistry course | Srisawasdi, N. Nantakaew, N. Panjaburee, P. |
2017 | ||||
27. | A Development of Supervised-Online Personal Learning Environment: Examining Factors Affecting Self-Directed Learning and Conceptual Understanding Progression | Srisawasdi, N. Panjaburee, P. |
2017 | ||||
28. | A flipped inquiry-based learning with mobility to improving students' learning performance in science: A comparative study | Srisawasdi, N. | 2017 | ||||
29. | A proposal to develop a guided-inquiry mobile learning with a mastery learning mechanism for improving students' learning performance and attitudes in Physics | Panjaburee, P. Srisawasdi, N. |
2017 | ||||
30. | Developing interactive simulation in physical science for eliminating students' misunderstanding of heat transfer: A DSLM approach | Srisawasdi, N. | 2017 | ||||
31. | Developing smartphone-based hands-on inquiry laboratory: Results on students' affective channels of chemistry learning | Srisawasdi, N. | 2017 | ||||
32. | Development of Smartphone-Based Inquiry Laboratory Lessons in Chemistry Learning of Solution and Concentration: An Evidence-Based Practice | Premthaisong , Srisawasdi, N. |
2017 | ||||
33. | Fostering pre-service science teachers' technological pedagogical content knowledge of mobile laboratory learning in science | Premthaisong , Srisawasdi, N. |
2017 | ||||
34. | Influence of an integrated learning diagnosis and formative assessment-based personalized web learning approach on students learning performances and perceptions | Srisawasdi, N. Panjaburee, P. |
2017 | ||||
35. | The implementation of instructional innovations and assistive technologies in emerging developing countries within the Asia-pacific region | Srisawasdi, N. | 2017 | ||||
36. | An approach to design educational digital game to improve students’ conceptual development in physics of static electricity | Srisawasdi, N. | 2018 | ||||
37. | A personalized mobile learning system for solving STEM teachers' TPACK problems | Srisawasdi, N. Chaipah, K. |
2018 | ||||
38. | A proposal for personalized inquiry-based flipped learning with mobile technology | Srisawasdi, N. | 2018 | ||||
39. | Collaborative and interactive online simulation system for secondary school scientific experiments | Srisawasdi, N. Chaipah, K. |
2018 | ||||
40. | Designing digital card game environment to promote students’ conceptual improvement in Newton’s laws of motion | Srisawasdi, N. | 2018 | ||||
41. | Development of a Digital Citizenship Computer Game with a Contextual Decision-Making-Oriented Approach | Panjaburee, P. Srisawasdi, N. |
2018 | ||||
42. | Development of gamified flipped-class inquiry learning in physics concept of energy for school science: An early stage | Srisawasdi, N. | 2018 | ||||
43. | Diagnosing Individual University Students' Information Literacy Problems with a Concept-Effect Propagation-Oriented System | Panjaburee, P. Srisawasdi, N. |
2018 | ||||
44. | Investigating the impact of smartphone-based guided inquiry laboratory on middle school students’ science learning performance | Srisawasdi, N. | 2018 | ||||
45. | Preface | Srisawasdi, N. | 2018 | ||||
46. | Preparing pre-service teachers to integrate mobile technology into science laboratory learning: an evaluation of technology-integrated pedagogy module | Srisawasdi, N. Bunterm, T. |
2018 | ||||
47. | The opportunities and challenges of mobile and ubiquitous learning for future schools: A context of Thailand | Panjaburee, P. Srisawasdi, N. |
2018 | ||||
48. | Transforming chemistry class with technology-enhanced active inquiry learning for the digital native generation | Srisawasdi, N. | 2018 | ||||
49. | Using constructivist instructional design for flipped classroom to enhancing cognitive learning performance | Kanjug, I. Srisawasdi, N. Chaijaroen, S. Kanjug, |
2018 | ||||
50. | Using mobile game-like simulation to promote inquiry-based laboratory learning in elementary school science | Srisawasdi, N. | 2018 | ||||
51. | A Flipped Classroom Model with Gamified Inquiry-based Process-Concept Relationship | Srisawasdi, N. | 2019 | ||||
52. | Implementation of Game-transformed Inquiry-based Learning to Promote the Understanding of and Motivation to Learn Chemistry | Srisawasdi, N. Panjaburee, P. |
2019 | ||||
53. | Teaching english with science: A result of content and language integrated learning approach and mobile-assisted inquiry pedagogy | Premthaisong , Srisawasdi, N. |
2019 | ||||
54. | The effect of using a semi-automated image processing mobile application on undergrad students’ perception in a complex science experiment | Srisawasdi, N. Saikaew, K.R. |
2019 | ||||
55. | A personalised mobile learning system for promoting STEM discipline teachers’ TPACK development | Srisawasdi, N. Chaipah, K. |
2020 | ||||
56. | Moderating effects of gender differences on the relationships between perceived learning support, intention to use, and learning performance in a personalized e-learning | Panjaburee, P. Srisawasdi, N. |
2020 | Count | 56 | 0 | 0 | 0 |
Title | Authors | Year | Publication name | Cited count | ||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|
< 2015 | 2016 | 2017 | 2018 | 2019 | 2020 | รวม | ||||||
1. | Design of interactive computer-based laboratory tool for inquiry-based learning environment | Srisawasdi, N. | 2011 |
Proceedings of the 19th International Conference on Computers in Education, ICCE 2011 (), pp. 244-246 |
||||||||
2. | Development of a constructivist web-based learning system with student personalized conceptual profile | Srisawasdi, N. Panjaburee, P. |
2012 |
Workshop Proceedings of the 20th International Conference on Computers in Education, ICCE 2012 (), pp. 44-50 |
||||||||
3. | Effect of learning by simulation-based inquiry on students' mental model construction | Srisawasdi, N. | 2012 |
Workshop Proceedings of the 20th International Conference on Computers in Education, ICCE 2012 (), pp. 51-57 |
||||||||
4. | Transforming pre-service teachers' technological pedagogical and content knowledge through a case-based ICT module | Srisawasdi, N. | 2012 |
Workshop Proceedings of the 20th International Conference on Computers in Education, ICCE 2012 (), pp. 134-141 |
||||||||
5. | Criteria and strategies for applying concept-effect relationship model in technological personalized learning environment | Panjaburee, P. Srisawasdi, N. |
2013 |
Workshop Proceedings of the 21st International Conference on Computers in Education, ICCE 2013 (), pp. 136-141 |
||||||||
6. | Developing learning activity based on the learning cycle approach to promote students' understanding of square root | Panjaburee, P. Srisawasdi, N. |
2013 |
International Journal of Science, Mathematics and Technology Learning 3 (19), pp. 71-81 |
||||||||
7. | Effect of simulation-based inquiry with dual-situated learning model on change of student's conception | Srisawasdi, N. Panjaburee, P. |
2013 |
Workshop Proceedings of the 21st International Conference on Computers in Education, ICCE 2013 (), pp. 147-154 |
||||||||
8. | Guideline for the development of personalized technology-enhanced learning in science, technology, and mathematics education | Panjaburee, P. Srisawasdi, N. |
2013 |
Workshop Proceedings of the 21st International Conference on Computers in Education, ICCE 2013 (), pp. 480-487 |
||||||||
9. | Students' motivation of science learning in integrated computer-based laboratory environment | Srisawasdi, N. Panjaburee, P. |
2013 |
Workshop Proceedings of the 21st International Conference on Computers in Education, ICCE 2013 (), pp. 472-479 |
||||||||
10. | Use of an interactive computer-simulated experiment to enhance students' mental models of hydrogen bonding phenomena | Srisawasdi, N. | 2013 |
ACS Symposium Series (1142), pp. 241-271 |
||||||||
11. | A Blended learning environment in chemistry for promoting conceptual comprehension: A journey to target students' misconceptions | Niroj, S. Srisawasdi, N. |
2014 |
Workshop Proceedings of the 22nd International Conference on Computers in Education, ICCE 2014 (), pp. 307-315 |
||||||||
12. | An evaluation of macro-micro representation-based computer simulation for physics learning in liquid pressure: Results on students' perceptions and attitude | Buyai, J. Srisawasdi, N. |
2014 |
Workshop Proceedings of the 22nd International Conference on Computers in Education, ICCE 2014 (), pp. 330-339 |
||||||||
13. | An investigation of relationships between biology attitudes and perceptions toward instructional technology in analogy-based simulation on light reaction | Pinatuwong, S. Srisawasdi, N. |
2014 |
Workshop Proceedings of the 22nd International Conference on Computers in Education, ICCE 2014 (), pp. 149-152 |
||||||||
14. | Designing educational computer game for human circulatory system: A pilot study | Lokayut, J. Srisawasdi, N. |
2014 |
Workshop Proceedings of the 22nd International Conference on Computers in Education, ICCE 2014 (), pp. 571-578 |
||||||||
15. | Development of Digital game-based biology learning experience on cell cycle through DSLM instructional approach | Kanyapasit, P. Srisawasdi, N. |
2014 |
Workshop Proceedings of the 22nd International Conference on Computers in Education, ICCE 2014 (), pp. 857-866 |
||||||||
16. | Do they keep technology in mind? An implementation of TPACK-oriented science teacher program for science degree-graduated students | Srisawasdi, N. Panjaburee, P. |
2014 |
Proceedings of the 22nd International Conference on Computers in Education, ICCE 2014 (), pp. 939-944 |
||||||||
17. | Effects of gender differences and learning performance within residence energy saving game-based inquiry playing | Panjaburee, P. Srisawasdi, N. |
2014 |
Workshop Proceedings of the 22nd International Conference on Computers in Education, ICCE 2014 (), pp. 298-306 |
||||||||
18. | Implementation of student-associated game-based open inquiry in chemistry education: Results on students' perception and motivation | Meesuk, K. Srisawasdi, N. |
2014 |
Workshop Proceedings of the 22nd International Conference on Computers in Education, ICCE 2014 (), pp. 219-226 |
||||||||
19. | Investigating correlation between attitude toward chemistry and motivation within educational digital game-based learning | Nantakaew, N. Srisawasdi, N. |
2014 |
Workshop Proceedings of the 22nd International Conference on Computers in Education, ICCE 2014 (), pp. 316-323 |
||||||||
20. | Investigating factors affecting conceptual learning progression when playing digital game-based inquiry learning for energy education | Panjaburee, P. Srisawasdi, N. |
2014 |
Proceedings of the 22nd International Conference on Computers in Education, ICCE 2014 (), pp. 588-597 |
||||||||
21. | Promoting students' physics motivation by blended combination of physical and virtual laboratory environment: A result on different levels of inquiry | Piraksa, C. Srisawasdi, N. |
2014 |
Workshop Proceedings of the 22nd International Conference on Computers in Education, ICCE 2014 (), pp. 340-348 |
||||||||
22. | Students' self-efficacy and acceptance toward context-aware ubiquitous learning in biology education: A case of photosynthesis in plant | Nasaro, C. Srisawasdi, N. |
2014 |
Workshop Proceedings of the 22nd International Conference on Computers in Education, ICCE 2014 (), pp. 413-420 |
||||||||
23. | Technology-enhanced chemistry learning and students' perceptions: A comparison of microcomputer-based laboratory and webbased inquiry science environment | Kamtoom, K. Srisawasdi, N. |
2014 |
Workshop Proceedings of the 22nd International Conference on Computers in Education, ICCE 2014 (), pp. 105-113 |
||||||||
24. | The effect of simulation-based inquiry on students' conceptual learning and its potential applications in mobile learning | Srisawasdi, N. | 2014 |
International Journal of Mobile Learning and Organisation 1 (8), pp. 28-49 |
||||||||
25. | A learning cycle approach to developing educational computer game for improving students' learning and awareness in electric energy consumption and conservation | Panjaburee, P. Srisawasdi, N. |
2015 |
Educational Technology and Society 1 (18), pp. 91-105 |
||||||||
26. | A contextual online game based on inquiry learning approach for improving students' learning performance in a chemistry course | Srisawasdi, N. Nantakaew, N. Panjaburee, P. |
2017 |
ICCE 2017 - 25th International Conference on Computers in Education: Technology and Innovation: Computer-Based Educational Systems for the 21st Century, Workshop Proceedings (), pp. 601-608 |
||||||||
27. | A Development of Supervised-Online Personal Learning Environment: Examining Factors Affecting Self-Directed Learning and Conceptual Understanding Progression | Srisawasdi, N. Panjaburee, P. |
2017 |
Proceedings - 2017 6th IIAI International Congress on Advanced Applied Informatics, IIAI-AAI 2017 (), pp. 607-612 |
||||||||
28. | A flipped inquiry-based learning with mobility to improving students' learning performance in science: A comparative study | Srisawasdi, N. | 2017 |
ICCE 2017 - 25th International Conference on Computers in Education: Technology and Innovation: Computer-Based Educational Systems for the 21st Century, Workshop Proceedings (), pp. 587-594 |
||||||||
29. | A proposal to develop a guided-inquiry mobile learning with a mastery learning mechanism for improving students' learning performance and attitudes in Physics | Panjaburee, P. Srisawasdi, N. |
2017 |
International Journal of Mobile Learning and Organisation 1 (11), pp. 63-86 |
||||||||
30. | Developing interactive simulation in physical science for eliminating students' misunderstanding of heat transfer: A DSLM approach | Srisawasdi, N. | 2017 |
ICCE 2017 - 25th International Conference on Computers in Education: Technology and Innovation: Computer-Based Educational Systems for the 21st Century, Workshop Proceedings (), pp. 572-577 |
||||||||
31. | Developing smartphone-based hands-on inquiry laboratory: Results on students' affective channels of chemistry learning | Srisawasdi, N. | 2017 |
ICCE 2017 - 25th International Conference on Computers in Education: Technology and Innovation: Computer-Based Educational Systems for the 21st Century, Workshop Proceedings (), pp. 615-622 |
||||||||
32. | Development of Smartphone-Based Inquiry Laboratory Lessons in Chemistry Learning of Solution and Concentration: An Evidence-Based Practice | Premthaisong , Srisawasdi, N. |
2017 |
Proceedings - 2017 6th IIAI International Congress on Advanced Applied Informatics, IIAI-AAI 2017 (), pp. 579-584 |
||||||||
33. | Fostering pre-service science teachers' technological pedagogical content knowledge of mobile laboratory learning in science | Premthaisong , Srisawasdi, N. |
2017 |
ICCE 2017 - 25th International Conference on Computers in Education: Technology and Innovation: Computer-Based Educational Systems for the 21st Century, Workshop Proceedings (), pp. 151-160 |
||||||||
34. | Influence of an integrated learning diagnosis and formative assessment-based personalized web learning approach on students learning performances and perceptions | Srisawasdi, N. Panjaburee, P. |
2017 |
Interactive Learning Environments 7 (25), pp. 889-903 |
||||||||
35. | The implementation of instructional innovations and assistive technologies in emerging developing countries within the Asia-pacific region | Srisawasdi, N. | 2017 |
ICCE 2017 - 25th International Conference on Computers in Education: Technology and Innovation: Computer-Based Educational Systems for the 21st Century, Workshop Proceedings (), pp. 92-93 |
||||||||
36. | An approach to design educational digital game to improve students’ conceptual development in physics of static electricity | Srisawasdi, N. | 2018 |
ICCE 2018 - 26th International Conference on Computers in Education, Workshop Proceedings (), pp. 381-389 |
||||||||
37. | A personalized mobile learning system for solving STEM teachers' TPACK problems | Srisawasdi, N. Chaipah, K. |
2018 |
ICCE 2018 - 26th International Conference on Computers in Education, Workshop Proceedings (), pp. 309-317 |
||||||||
38. | A proposal for personalized inquiry-based flipped learning with mobile technology | Srisawasdi, N. | 2018 |
ICCE 2018 - 26th International Conference on Computers in Education, Workshop Proceedings (), pp. 344-353 |
||||||||
39. | Collaborative and interactive online simulation system for secondary school scientific experiments | Srisawasdi, N. Chaipah, K. |
2018 |
ICCE 2018 - 26th International Conference on Computers in Education, Workshop Proceedings (), pp. 318-326 |
||||||||
40. | Designing digital card game environment to promote students’ conceptual improvement in Newton’s laws of motion | Srisawasdi, N. | 2018 |
ICCE 2018 - 26th International Conference on Computers in Education, Workshop Proceedings (), pp. 372-380 |
||||||||
41. | Development of a Digital Citizenship Computer Game with a Contextual Decision-Making-Oriented Approach | Panjaburee, P. Srisawasdi, N. |
2018 |
Proceedings - 2018 International Symposium on Educational Technology, ISET 2018 (), pp. 230-234 |
||||||||
42. | Development of gamified flipped-class inquiry learning in physics concept of energy for school science: An early stage | Srisawasdi, N. | 2018 |
ICCE 2018 - 26th International Conference on Computers in Education, Workshop Proceedings (), pp. 390-398 |
||||||||
43. | Diagnosing Individual University Students' Information Literacy Problems with a Concept-Effect Propagation-Oriented System | Panjaburee, P. Srisawasdi, N. |
2018 |
Proceedings - 2018 International Symposium on Educational Technology, ISET 2018 (), pp. 38-42 |
||||||||
44. | Investigating the impact of smartphone-based guided inquiry laboratory on middle school students’ science learning performance | Srisawasdi, N. | 2018 |
ICCE 2018 - 26th International Conference on Computers in Education, Workshop Proceedings (), pp. 626-633 |
||||||||
45. | Preface | Srisawasdi, N. | 2018 |
ICCE 2018 - 26th International Conference on Computers in Education, Workshop Proceedings (), pp. |
||||||||
46. | Preparing pre-service teachers to integrate mobile technology into science laboratory learning: an evaluation of technology-integrated pedagogy module | Srisawasdi, N. Bunterm, T. |
2018 |
International Journal of Mobile Learning and Organisation 1 (12), pp. 1-17 |
||||||||
47. | The opportunities and challenges of mobile and ubiquitous learning for future schools: A context of Thailand | Panjaburee, P. Srisawasdi, N. |
2018 |
Knowledge Management and E-Learning 4 (10), pp. 485-506 |
||||||||
48. | Transforming chemistry class with technology-enhanced active inquiry learning for the digital native generation | Srisawasdi, N. | 2018 |
ACS Symposium Series (1293), pp. 221-233 |
||||||||
49. | Using constructivist instructional design for flipped classroom to enhancing cognitive learning performance | Kanjug, I. Srisawasdi, N. Chaijaroen, S. Kanjug, |
2018 |
Lecture Notes in Computer Science (including subseries Lecture Notes in Artificial Intelligence and Lecture Notes in Bioinformatics) (11003 LNCS), pp. 135-145 |
||||||||
50. | Using mobile game-like simulation to promote inquiry-based laboratory learning in elementary school science | Srisawasdi, N. | 2018 |
ICCE 2018 - 26th International Conference on Computers in Education, Workshop Proceedings (), pp. 240-248 |
||||||||
51. | A Flipped Classroom Model with Gamified Inquiry-based Process-Concept Relationship | Srisawasdi, N. | 2019 |
ICCE 2019 - 27th International Conference on Computers in Education, Proceedings (2), pp. 19-27 |
||||||||
52. | Implementation of Game-transformed Inquiry-based Learning to Promote the Understanding of and Motivation to Learn Chemistry | Srisawasdi, N. Panjaburee, P. |
2019 |
Journal of Science Education and Technology 2 (28), pp. 152-164 |
||||||||
53. | Teaching english with science: A result of content and language integrated learning approach and mobile-assisted inquiry pedagogy | Premthaisong , Srisawasdi, N. |
2019 |
ICCE 2019 - 27th International Conference on Computers in Education, Proceedings (2), pp. 286-293 |
||||||||
54. | The effect of using a semi-automated image processing mobile application on undergrad students’ perception in a complex science experiment | Srisawasdi, N. Saikaew, K.R. |
2019 |
International Journal of Mobile Learning and Organisation 2 (13), pp. 193-216 |
||||||||
55. | A personalised mobile learning system for promoting STEM discipline teachers’ TPACK development | Srisawasdi, N. Chaipah, K. |
2020 |
International Journal of Mobile Learning and Organisation 2 (14), pp. 215-235 |
||||||||
56. | Moderating effects of gender differences on the relationships between perceived learning support, intention to use, and learning performance in a personalized e-learning | Panjaburee, P. Srisawasdi, N. |
2020 |
Journal of Computers in Education 2 (7), pp. 229-255 |
Title | Authors | Year | Journal title |
---|
Title | Authors | Year | Journal title | Cited count | ||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|
< 2015 | 2016 | 2017 | 2018 | 2019 | 2020 | รวม |
Title | Authors | Year | Journal title |
---|
ชื่อโครงการ | Authors | ประเภทโครงการ | ปีงบประมาณ | ทุนวิจับ | ||
---|---|---|---|---|---|---|
1. | การสนับสนุนความก้าวหน้าทางการเรียนรู้ฟิสิกส์ด้วยการสืบเสาะหาความรู้โดยใช้แบบจำลองเป็นฐาน |
ผศ.ดร. นิวัฒน์ ศรีสวัสดิ์ |
โครงการย่อย ภายใต้ชุดโครงการวิจัย | 2557 | ทุนงบประมาณแผ่นดินประจำปี 2557 | |
2. | การเรียนรู้วิทยาศาสตร์อย่างไม่เป็นทางการร่วมกันในครอบครัวโดยใช้เกมดิจิทัลที่ถูกออกแบบโดยอิงบริบทสถานการณ์ชีวิตจริงผ่านอุปกรณ์ไร้สาย |
ผศ.ดร. นิวัฒน์ ศรีสวัสดิ์ รศ.ดร. พัชรินทร์ ปัญจบุรี ผศ.ดร. ศศิธร ชูแก้ว |
โครงการ | 2562 | ทุนงบประมาณแผ่นดินประจำปี 2562 (งบบูรณาการวิจัยและนวัตกรรม) |