TY - JOUR
T1 - Web-based undergraduate chemistry problem-solving
T2 - The interplay of task performance, domain knowledge and web-searching strategies
AU - She, Hsiao-Ching
AU - Cheng, Meng Tzu
AU - Li, Ta-Wei
AU - Wang, Chia-Yu
AU - Chiu, Hsin-Tien
AU - Lee, Pei Zon
AU - Chou, Wen Chi
AU - Chuang, Ming Hua
PY - 2012/9/1
Y1 - 2012/9/1
N2 - This study investigates the effect of Web-based Chemistry Problem-Solving, with the attributes of Web-searching and problem-solving scaffolds, on undergraduate students' problem-solving task performance. In addition, the nature and extent of Web-searching strategies students used and its correlation with task performance and domain knowledge also were examined. We recruited a total of 183 undergraduate students, all of whom are taking the freshman chemistry course, to participate in the study to solve three chemistry tasks across a semester. Mandated screen-capture software captured participants' on-screen Web-searching processes were recorded every five seconds. Results demonstrated that students' problem-solving performance was significantly improved from task 1 to 3.; students with more domain knowledge outperformed students with less domain knowledge. Students with higher problem-solving performance employed more existing knowledge and metacognitive Web-searching strategies.; students with lower problem-solving performance employed more cognitive Web-searching strategies. In addition, students' problem-solving performance was correlated with their domain knowledge, use of existing knowledge.; metacognitive Web-searching strategies. Moreover, students' use of existing knowledge was the major factor for predicting their problem-solving performance according to the regression model.
AB - This study investigates the effect of Web-based Chemistry Problem-Solving, with the attributes of Web-searching and problem-solving scaffolds, on undergraduate students' problem-solving task performance. In addition, the nature and extent of Web-searching strategies students used and its correlation with task performance and domain knowledge also were examined. We recruited a total of 183 undergraduate students, all of whom are taking the freshman chemistry course, to participate in the study to solve three chemistry tasks across a semester. Mandated screen-capture software captured participants' on-screen Web-searching processes were recorded every five seconds. Results demonstrated that students' problem-solving performance was significantly improved from task 1 to 3.; students with more domain knowledge outperformed students with less domain knowledge. Students with higher problem-solving performance employed more existing knowledge and metacognitive Web-searching strategies.; students with lower problem-solving performance employed more cognitive Web-searching strategies. In addition, students' problem-solving performance was correlated with their domain knowledge, use of existing knowledge.; metacognitive Web-searching strategies. Moreover, students' use of existing knowledge was the major factor for predicting their problem-solving performance according to the regression model.
KW - Applications in subject areas
KW - Post-secondary education
KW - Teaching/learning strategies
UR - http://www.scopus.com/inward/record.url?scp=84859632757&partnerID=8YFLogxK
U2 - 10.1016/j.compedu.2012.02.005
DO - 10.1016/j.compedu.2012.02.005
M3 - Article
AN - SCOPUS:84859632757
SN - 0360-1315
VL - 59
SP - 750
EP - 761
JO - Computers and Education
JF - Computers and Education
IS - 2
ER -