The purpose of this project deals with applications of concept maps and integrated animations as effective teaching tools. This study focuses on dynamic effects of problem-solving ability in molecular chemistry for 75 college students. The research data are collected by means of achievement tests, learning attitude questionnaire, and semistructure interviews. This study is composed of strategic division group students who take chemistry courses and it also makes assessments of students' learning achievements. All data analyses are used with the two-way covariance of analyses (ANCOVA) for the strategic group students' learning achievements and attitudes. All statistic results are indicated in the following major aspects. For strategic group students (E1), who accept applications of concept maps and animations have more superior posttest learning achievements to those students (E2) who only approach integrated animations. The same group students (E2) who accept applications of integrated animations, have more superior learning achievements to those students (C1) who only accept the guidance of concept maps; and the same group students (C1) who accept the guidance of concept maps, have more superior learning achievements to those students (C2) who don't accept the guidance of concept maps. After reviewing learning attitudes, students (E1) who accept applications of concept maps and animations, have more superior learning attitudes to those students (E2) who only approach integrated animations. For students who employ different time spans of animations, show more significant learning attitudes in 6 subscales and over large effect sizes in molecular chemistry. After Scheffe's post-comparisons, group students (E1) who accept applications of concept maps and animations, show more significant learning attitudes in all scales. The animation variable of time spans indicates positive significance of students' learning attitudes. According to semi-structure interviews between students, all applications of molecular chemistry textual teachings with concept maps and animations have much appeal to students' curiosity and interests which can enrich their learning performances and problem-solving skills. Some students are looking forward to having concise and practical applications of concept maps and integrated animations in the future.