University students’ conceptual understanding of thermodynamics with conceptual problem-solving approach (CPS)

Abstract A crucial step in problem solving is the retrieval of already learned schemata from long-term memory, a process which may be facilitated by categorization of the problem. The way knowledge is organized affects its availability, and, at the same time, it constitutes the important difference between experts and novices. The present study employed concept maps in a novel way, as a categorization tool for chemical equilibrium problems. The objective was to determine whether providing specific practice in problem categorization improves student achievement in problem solving and in conceptual understanding. Two groups of eleventh-grade students from two special private seminars in Corfu island, Greece, were used: the treatment group (N = 19) and the control group (N = 21). Results showed that the categorization helped students to improve their achievement, but the improvement was not always statistically significant. Students at lower (Piagetian) developmental level (in our sample, students at the transitional stage) had a larger improvement, which was statistically significant with a high effect size. Finally, Nakhleh’s categorization scheme, distinguishing algorithmic versus conceptual subproblems in the solution process, was studied. Dependency of problem solving on an organized knowledge base and the significance of concept mapping on student achievement were the conclusion.

Download Full-text

Making sense of sensemaking: using the sensemaking epistemic game to investigate student discourse during a collaborative gas law activity

Chemistry Education Research and Practice ◽

10.1039/d0rp00290a ◽

2021 ◽

Author(s):

Kevin H. Hunter ◽

Jon-Marc G. Rodriguez ◽

Nicole M. Becker

Keyword(s):

Problem Solving ◽

Conceptual Understanding ◽

Ideal Gas ◽

Interactive Simulation ◽

Structural Components ◽

Student Discourse ◽

Coding Scheme ◽

Making Sense ◽

Ideal Gas Law ◽

The Ideal

Beyond students’ ability to manipulate variables and solve problems, chemistry instructors are also interested in students developing a deeper conceptual understanding of chemistry, that is, engaging in the process of sensemaking. The concept of sensemaking transcends problem-solving and focuses on students recognizing a gap in knowledge and working to construct an explanation that resolves this gap, leading them to “make sense” of a concept. Here, we focus on adapting and applying sensemaking as a framework to analyze three groups of students working through a collaborative gas law activity. The activity was designed around the learning cycle to aid students in constructing the ideal gas law using an interactive simulation. For this analysis, we characterized student discourse using the structural components of the sensemaking epistemic game using a deductive coding scheme. Next, we further analyzed students’ epistemic form by assessing features of the activity and student discourse related to sensemaking: whether the question was framed in a real-world context, the extent of student engagement in robust explanation building, and analysis of written scientific explanations. Our work provides further insight regarding the application and use of the sensemaking framework for analyzing students’ problem solving by providing a framework for inferring the depth with which students engage in the process of sensemaking.

Download Full-text

Implementation of conceptual problem solving (CPS) in the 5E learning cycle to improve students’ understanding of archimedes principle

10.1063/5.0000738 ◽

2020 ◽

Author(s):

Tsania Nur Diyana ◽

Dwi Haryoto ◽

Sutopo

Keyword(s):

Problem Solving ◽

Learning Cycle ◽

Conceptual Problem

Download Full-text

Untangling Geometric Ideas

Teaching Children Mathematics ◽

10.5951/teacchilmath.20.8.0508 ◽

2014 ◽

Vol 20 (8) ◽

pp. 508-515

Author(s):

Claudia R. Burgess

Keyword(s):

Problem Solving ◽

Conceptual Understanding ◽

Wassily Kandinsky ◽

Group Cooperation

This geometry lesson uses the work of abstract artist Wassily Kandinsky as a springboard and is intended to promote the conceptual understanding of mathematics through problem solving, group cooperation, mathematical negotiations, and dialogue.

Download Full-text

The Sequential Mediating Effects of Personality and Participation in Class of the Relations Between the Problem Solving Ability and Creativity in University Students

sychological Type and Human Development ◽

10.52745/kapt.2020.21.1.93 ◽

2020 ◽

Vol 21 (1) ◽

pp. 93-110

Author(s):

Seikyung Kim Kim

Keyword(s):

Problem Solving ◽

University Students ◽

Mediating Effects

Download Full-text

The Influence of Challenge Course Participation on Moral and Ethical Reasoning

Journal of Experiential Education ◽

10.1177/105382590202500205 ◽

2002 ◽

Vol 25 (2) ◽

pp. 278-280 ◽

Cited By ~ 9

Author(s):

Carol A. Smith ◽

Sharon E. Strand ◽

Camille J. Bunting

Keyword(s):

College Students ◽

Problem Solving ◽

University Students ◽

Moral Reasoning ◽

Ethical Reasoning ◽

Defining Issues Test ◽

Control Group ◽

Challenge Course ◽

Significant Difference ◽

The Impact

This study investigated the impact of a 15-week outdoor experiential program on the moral reasoning of college students. One hundred and ninety-six university students volunteered to participate in this study, which utilized Rest's (1979) Defining Issues Test (DIT). The DIT investigates how individuals arrive at making decisions, and formulates a “P” (Principled moral reasoning) score for each subject. The groups were found to be homogeneous in moral reasoning at the pretest (outdoor experiential x = 36.07; control x = 33.08; F = 0.05). There was a statistically significant difference on the posttest scores of the outdoor experiential program participants (x = 40.98) in relation to the control group (x = 34.14) (F = 3.84). The results of this study demonstrated that the outdoor experiential program participants were significantly different from the control group at posttest. It is postulated that even though improved moral reasoning was not a stated objective, the outdoor experiential students, through front-loading, reflection, critical thinking, problem solving, and adherence to the full value contract, did enhance their level of moral reasoning. Through the combined modeling of behavior and discussion, changes in behavior can occur. The nature of outdoor experiential programs seems well suited to positively influence moral and ethical reasoning.

Download Full-text