Analysis of problem-solving strategies in Chemistry

Date of Publication

1992

Document Type

Master's Thesis

Degree Name

Master of Science in Teaching Major in Chemistry

Subject Categories

Educational Assessment, Evaluation, and Research | Educational Methods | Language and Literacy Education | Secondary Education

College

Br. Andrew Gonzalez FSC College of Education

Department/Unit

Science Education

Thesis Adviser

Elizabeth Ong

Defense Panel Chair

Adelaida L. Bago

Defense Panel Member

Bee Ching Ong
Fe Dela Rosa

Abstract/Summary

The study identifies common problem solving strategies used by Chemistry students and analyzed the difficulties they encountered in solving quantitative Chemistry problems. The study was limited to an intact section of 27 junior students of the Catanduanes State Colleges Laboratory High School during the Fourth Grading Period of school year 1990-1991. The investigator conducted individual audiotaped interview-problem solving sessions with each student. The problems given included lessons on molarity, chemical reactions and percent composition. Each tape was transcribed into a script, and the script was analyzed according to the phases and behaviors defined on the Problem Solving Behavior Tally Sheet (PSBTS). The scripts were further analyzed for difficulties the subjects encountered in solving the problems. The Problem Solving-Behavior Tally Sheet was used to analyze and categorize the statements made by the subjects as they solve each problem. For each student per problem, the percentage distribution of categorized statements according to phase and type of behavior within the phase was determined. The Efficiency Index, EI, was computed per sub-phase for each subject per problem. A Spearman Correlation Coefficient was then computed for the different types of problem solvers (VGPS, GPS, PPS, VPPS) per problem. The EI rank of each subject was correlated with the percentage rankings of his employment of each of the 11 possible problem solving behaviors. High positive coefficient implied that the students who were more efficient problem solvers employed a given problem solving behavior to a greater degree. Negative coefficient implied that the application of that particular problem solving behavior was counter productive in terms of efficiency in solving that particular problem. From these data, it was possible to identify which of the problem solving behaviors were most efficient in solving each type of problem.

Findings and conclusions of the study were: 1. Out of the 27 samples, 8 or 30 percent of the sample successfully solved all the 3 problems and were classified as VGPS, 10 or 37 percent successfully solved 2 problems (GPS), 6 or 22 percent successfully solved 1 problem (PPS), and 3 or 11 percent were not able to solve any problem (VPPS) .2. The four most common problem solving strategies used by the different types of problem solvers were: Tentative Manipulations (C-3), Relational Statements (A-1), Random Trial and Error (B-1) and Verbal Systematization of the problem on hand right during the class so as to detect difficulties immediately and give the necessary remedy to ensure better understanding of the Chemistry concept/s involved.

Abstract Format

html

Language

English

Format

Print

Accession Number

TG02018

Shelf Location

Archives, The Learning Commons, 12F Henry Sy Sr. Hall

Physical Description

[94] leaves; 28 cm.

Keywords

Chemistry -- Problems; exercises; etc

This document is currently not available here.

Share

COinS