Facilitating Conceptual Learning in Quantitative Chemistry

Johnson, Sarah R

01 May 2016

Traditional chemistry laboratory courses have a manual consisting of “step-by-step” experiments; instructions are given to complete experiments, requiring minimal information/concepts processing to be successful. This experience leaves students unprepared for the real-world, where critical thinking skills are needed to conduct research. This study focused on building analytical techniques, conceptual knowledge, and critical thinking skills used to solve research problems. A new quantitative chemistry laboratory manual was developed to transition students from traditional to inquiry-based experiments, requiring analytical method development. Data showed students having less difficulty using the new manual (0.8281 average difficulty) on method development exam questions and experiments, compared to the traditional manual (0.600 average difficulty). T-test showed significant difference between item difficulty, p = 0.029. Using null hypotheses, the new laboratory manual led to an increase in students’ conceptual knowledge and research skills. They were able to use their knowledge and skills to successfully solve real-world related problems.

Chemical Education

Quantitative Analysis Laboratory

Laboratory Manual

Inquiry-based Learning

Problem-based Learning

Team Learning

Analytical Chemistry

Higher Education

Other Chemistry

Science and Mathematics Education

Preparing Historically Underserved Students for STEM Careers: the Role of an Inquiry-based High School Science Sequence Beginning with Physics

Bridges, Jon P.

18 May 2017

Improving the STEM readiness of students from historically underserved groups is a moral and economic imperative requiring greater attention and effort than has been shown to date. The current literature suggests a high school science sequence beginning with physics and centered on developing conceptual understanding, using inquiry labs and modeling to allow students to explore new ideas, and addressing and correcting student misconceptions can increase student interest in and preparation for STEM careers. The purpose of this study was to determine if the science college readiness of historically underserved students can be improved by implementing an inquiry-based high school science sequence comprised of coursework in physics, chemistry, and biology for every student. The study used a retrospective cohort observational design to address the primary research question: are there differences between historically underserved students completing a Physics First science sequence and their peers completing a traditional science sequence in 1) science college-readiness test scores, 2) rates of science college-and-career readiness, and 3) interest in STEM? Small positive effects were found for all three outcomes for historically underserved students in the Physics First sequence.

Poor children -- Education

Educational equalization

Inquiry-based learning

Career education

Educational Leadership

Science and Mathematics Education

How Does a Next Generation Science Standard Aligned, Inquiry Based, Science Unit Impact Student Achievement of Science Practices and Student Science Efficacy in an Elementary Classroom?

Whittington, Kayla Lee

25 September 2017

This study examined the impact of an inquiry based Next Generation Science Standard aligned science unit on elementary students' understanding and application of the eight Science and Engineering Practices and their relation in building student problem solving skills. The study involved 44 second grade students and three participating classroom teachers. The treatment consisted of a school district developed Second Grade Earth Science unit: What is happening to our playground? that was taught at the beginning of the school year. Quantitative results from a Likert type scale pre and post survey and from student content knowledge assessments showed growth in student belief of their own abilities in the science classroom. Qualitative data gathered from student observations and interviews performed at the conclusion of the Earth Science unit further show gains in student understanding and attitudes. This study adds to the existing literature on the importance of standard aligned, inquiry based science curriculum that provides time for students to engage in science practices.

Self-efficacy

Students -- Attitudes

Problem solving

Inquiry-based learning

Science and Mathematics Education

Designing Online Courses for Individual and Collaborative Learning : A study of a virtual learning environment based in Sri Lanka

Weerasinghe, Thushani

January 2015

Online courses of distance learning programmes at universities are designed considering the characteristics and needs of their adult learners. Basically, there are two types of learners in an online course: individual learners and collaborative learners. Designing for learner satisfaction and learning effectiveness for both types of learners is challenging. In fact, previous research has noted that many online courses fail due to poor design. As a solution, researchers have identified instructional design principles that can guide the design of successful online courses. However, these principles lack detailed information to apply them in contexts different from where they had been identified. This consideration raises a question: how does one adapt the existing design principles to design online courses that promote both individual and collaborative learning, particularly in contexts where online courses are supposed to be conducted with minimal teacher support? In the present research, this question is addressed via two sub-research questions: (1) which course components and their design features can promote learners’ satisfaction, perceived learning, and learning effectiveness, and (2) which course components and their design features can stimulate inquiry-based learning and peer-teaching? The research was carried out in the field of educational design research with sets of students and instructional designers of a virtual learning environment prepared for a university-level degree programme in Sri Lanka. Referring to the findings of this research, the thesis discusses how to design online courses that promote both individual and collaborative learning. Further, based on the findings, the thesis presents a set of design principles and guidelines to promote both individual and collaborative learning in online courses that are on information technology related subjects and prepared for distance learning programmes. / SIDA Funded National e-Learning Centre Project at the University of Colombo School of Computing, Sri Lanka

Design-Based Research

Design Experiments

Online Learning

Instructional Design

Design Principles

Design Guidelines

Individual Learning

Collaborative Learning

Inquiry-Based Learning

Peer-Teaching

Les learning analytics pour promouvoir l'engagement et la réflexion des apprenants en situation d'apprentissage pratique / Promoting students’ engagement and reflection with learning analytics in inquiry-based learning

Venant, Rémi

08 December 2017

Les travaux pratiques représentent une composante incontournable de l'apprentissage. Toutefois, leur mise en œuvre au sein de laboratoires physiques requiert des infrastructures souvent coûteuses pour les institutions de formation qui peuvent ainsi difficilement faire face à la forte augmentation du nombre d'étudiants. Dans ce contexte, les laboratoires virtuels et distants (VRL) représentent une alternative pour assurer le passage à l'échelle des activités pratiques à moindre coût. De nombreux travaux de recherche ont émergé au cours de la dernière décennie en se focalisant sur les problématiques techniques et technologiques induites par ces nouveaux usages, telles que la fédération, la standardisation, ou la mutualisation des ressources de laboratoires. Cependant, les récentes revues de littérature du domaine mettent en exergue la nécessité de se préoccuper davantage des facettes pédagogiques liées à ces environnements informatiques innovants dédiés à l'apprentissage pratique. Dans cet objectif, nos travaux exploitent les traces issues des activités réalisées par les apprenants lors de sessions d'apprentissage pratique pour mettre en œuvre les théories socio-constructivistes qui sont au cœur de l'apprentissage exploratoire, et ainsi favoriser l'engagement et le processus de réflexion des étudiants. À partir de la littérature traitant des relations sociales entre apprenants, nous identifions dans un premier temps un ensemble de critères pour la conception de systèmes d'apprentissage pratique engageants. En s'appuyant sur une architecture de cloud computing, nous avons ensuite réalisé Lab4CE, un environnement web pour l'enseignement de l'Informatique capable de masquer la complexité des tâches de gestion des laboratoires, mais surtout d'exposer des capacités éducatives avancées. En effet, Lab4CE repose sur les Learning Analytics pour supporter différentes formes d'apprentissage telles que la collaboration, la coopération ou l'entraide entre pairs, mais également pour fournir des outils d'awareness et de réflexion visant à promouvoir l'apprentissage en profondeur pendant et après les activités pratiques. Plusieurs expérimentations en contexte d'apprentissage réel et présentiel montrent une évaluation positive de Lab4CE par les apprenants en terme d'utilisabilité, qu'ils s'appuient de manière significative sur nos outils d'awareness et de réflexion, mais que des artefacts supplémentaires sont nécessaires pour accroître leur engagement spontané dans des interactions sociales d'apprentissage. De plus, ces expérimentations soulignent l'existence d'une corrélation significative entre l'engagement des étudiants dans la plateforme et les stratégies d'apprentissage qu'ils mettent en œuvre d'une part, et leur performance académique d'autre part. Ces premiers résultats nous permettent d'affirmer que les théories socio-constructivistes sont un levier à l'engagement et à la réflexion dans les VRL. Ils nous invitent à confronter notre approche à d'autres modalités d'apprentissage, mais aussi à intégrer de nouvelles sources d'informations pour approfondir nos analyses du comportement et ainsi renforcer nos contributions à une meilleure prise en compte de l'apprentissage pratique dans les EIAH. / Practical activities, used in exploratory learning, represent a major component of education: they make learners acquire not only knowledge, but also skills and attitude, and they help them bridging the gap between theories and the real world within they are applied. However, the physical laboratories hosting these activities rely on expensive infrastructures that make very difficult for institutions to cope with the high increase of the students' population. Within this context, virtual and remote laboratories (VRL) bring an affordable alternative to provide practical activities at scale. Numerous research works have come up for the last decade; they mainly focused on technological issues such as the federation of remote laboratories, their standardization, or the pooling of the resources they provide. Nevertheless, the recent literature reviews highlight the need to pay more attention to the educational facets of these innovative learning environments. With that purpose in mind, our works make use of the learners' traces collected through their practical learning sessions to sustain socio-constructivist theories, on which practical activities rely on, and thus to engage students in their learning tasks and further their reflection. Starting from the study of scientific research, we identify as a first step a set of criteria required to design practical learning systems that support social interactions between learners. We then developed Lab4CE, a web-based environment for Computer Science education. This environment relies on a cloud computing architecture to provide learners with their own virtual resources, and hides the complexity of the inherent management tasks while offering advanced educational capabilities. Indeed, Lab4CE builds on learning analytics to enable different forms of learning such as collaboration, cooperation, or peer assistance, but also to supply learners as well as teachers awareness and reflection tools that aim at promoting deep learning during and after practical activities. We carried out several experimentations in authentic and hands-on learning contexts. They stressed the fact that learners evaluate positively the usability of Lab4CE, and they significantly rely on our awareness and reflection tools. However, extra artifacts are required to increase their spontaneous engagement in social learning interactions. Moreover, theses experimentations suggested a significant correlation between, on the one hand, student's activity in the environment and the learning strategies they apply and, on the other hand, their academic performance. These first results allow us to assess that socio-constructivist theories leverage engagement and reflection within VRL. They also invite us to put our approach into practice in other learning settings, but also to extend the sources of information to deal with our behavioral analyses in depth, and thus to enhance our contributions regarding the adoption of practical learning within technological environments.

Laboratoires virtuels et distants

Learning analytics

Apprentissage exploratoire

Réflexion

Awareness

Apprentissage de l'informatique

Virtual and remote laboratories

Learning analytics

Inquiry-based learning

Reflection

Awareness

Computer education

Realidade do ensino por investigação na práxis dos professores dos anos iniciais do ensino fundamental : possibilidades e desafios

Santana, Ronaldo Santos

January 2016

Orientadora: Profa. Dra. Fernanda Franzolin / Dissertação (mestrado) - Universidade Federal do ABC, Programa De Pós-Graduação em Ensino, História, Filosofia das Ciências e Matemática, 2016. / O ensino de Ciências por investigação (ENCI) é uma abordagem didática que tem sido recomendada mundialmente. Pode ser implementado pelos professores por meio de atividades em que os alunos investigam um problema proposto e tentam buscar hipóteses, soluções e considerações para respondê-lo. O objetivo principal dessa pesquisa é investigar as possibilidades apresentadas e os desafios enfrentados na realidade dos professores dos Anos Iniciais do Ensino Fundamental na implementação de atividades investigativas no ensino de Ciências. Para isso, foi realizada uma pesquisa colaborativa predominantemente qualitativa com 20 docentes atuantes nos Anos Iniciais do Ensino Fundamental. A pesquisa foi feita a partir da análise de conteúdo de dados provenientes de um formulário de concepções prévias preenchido pelas professoras, registros de um curso de formação continuada e dados de um estudo de casos múltiplos envolvendo três das participantes. Foram evidenciadas diversas possibilidades na implementação de atividades investigativas, como: atrelar o ensino de Ciências com outras disciplinas; desenvolver atividades experimentais em escolas sem laboratório de Ciências; trabalhar questões sobre a natureza da ciência; entre outras. Foram evidenciados também alguns desafios, como: repertório de ideias escasso; dificuldade em adaptar as atividades investigativas à rotina escolar; encontrar a melhor forma de aproveitar os erros em atividades investigativas; grande cobrança para as disciplinas de português e matemática; entre outros. Espera-se que as considerações e questionamentos oriundos desta pesquisa possam contribuir com futuros trabalhos para a elaboração de políticas públicas educacionais de modo a fazer com que a abordagem didática seja constantemente aperfeiçoada, para que se amplie o conhecimento do fenômeno de implementação do ensino de Ciências por investigação e para sua valoração diante de professores e pesquisadores da área. / Inquiry-Based Learning is a didactic approach that has been recommended worldwide. Can be implemented by teachers through activities in which students investigate a proposed problem and try to seek hypotheses, solutions and considerations to answer it. The main objective of this research is to investigate the possibilities presented and the challenges facing the reality of teachers in Elementary School in the implementation of inquiry activities in science education. For this, a predominantly qualitative collaborative research with 20 active teachers in Years of Basic Education was held. The survey was conducted from data content analysis from a form of preconceptions filled by teachers, records of a continuing education course and data from a study of multiple cases involving three of the participants. Several possibilities in the implementation of inquiry activities were highlighted, such as pegging the teaching of science with other disciplines; develop experimental activities in schools without science lab; work questions about the nature of science; among others. They were also highlighted some challenges, such as: repertoire of little ideas; difficulty in adapting to the school routine investigative activities; find the best way to take advantage of errors in investigative activities; great collection for the disciplines of Portuguese and Mathematics; among others. It is expected that the considerations and questions arising from this research can contribute to future work for the development of educational policies in order to make the didactic approach to be constantly improved, in order to expand the knowledge of the implementation phenomenon of science teaching for research and for its evaluation before teachers and researchers.

ANOS INICIAIS DO ENSINO FUNDAMENTAL

CIÊNCIA - ESTUDO E ENSINO

ELEMENTARY SCHOOL

SCIENCE EDUCATION

INQUIRY-BASED LEARNING

A construção de inscrições e seu uso no processo argumentativo em uma atividade investigativa de biologia / The construction of literary inscriptions and their use in the argumentative process in an inquiry-based learning activity in biology

Maíra Batistoni e Silva

13 March 2015

Nos últimos anos aumentou o número de pesquisas que abordam aspectos epistemológicos no ensino de ciências, destacando a ideia de que este não deve se preocupar somente com a aquisição de conceitos, mas também deve possibilitar que os alunos se apropriem das práticas epistêmicas da ciência, favorecendo assim a Alfabetização Científica. As páginas que se seguem apresentam um estudo de caso qualitativo planejado e realizado para compreender como se dá o engajamento dos alunos em práticas epistêmicas da cultura científica. Nosso principal objetivo foi analisar as práticas de inscrição realizadas pelos alunos e suas relações com a produção de explicações e argumentos durante uma atividade investigativa sobre crescimento populacional de Lemna sp. Os dados da pesquisa foram coletados durante as aulas de biologia em duas classes do primeiro ano do ensino médio (alunos com idades entre 15 e 16 anos) de uma escola pública estadual da cidade de São Paulo. A análise da sequência didática e dos relatórios produzidos pelos alunos nos forneceu evidências de que as práticas epistêmicas experimentadas pelos alunos ao longo da atividade de investigação diferem a depender do tipo de dado coletado por eles, se de acordo com o modelo explicativo já conhecido ou diferente do previsto pelo modelo. Além disso, nossa análise evidenciou que o contexto de investigação constitui-se como importante repertório interpretativo das inscrições literárias produzidas pelos alunos, favorecendo a construção de explicações com garantia nos dados coletados. O contexto de investigação também se mostrou relevante na construção de argumentos, uma vez que a maioria das justificativas utilizadas era de natureza empírica, especialmente nos relatórios dos alunos que trabalharam com dados não previstos pelo modelo explicativo. Assim, após análise da sequência didática e dos relatórios produzidos pelos alunos, encontramos evidências de que a atividade de investigação propiciou oportunidades de engajamento em práticas epistêmicas da cultura científica, especialmente aquelas relacionadas à produção e intrepretação de inscrições literárias, o que favoreceu o processo de construção de explicações e argumentos, práticas fundamentais na produção do conhecimento científico. / In recent years increased the number of researches on epistemological aspects in science teaching, emphasizing the idea that this shouldn\'t be concerned only with the acquisition of concepts, but should also enable students to take ownership of epistemic practices of science, favoring so the Scientific Literacy. Here, is presented a qualitative case study planned and conducted to understand how is the engagement of students in epistemic practices of scientific culture. Our aim was to analyze the application of practices carried out by students and their relationship with the production of explanations and arguments during an investigative activity on growth of Lemna sp population. The data were collected during biology classes from high school classes in a public high school, São Paulo city, Brazil (students aged: 15 to 16 years). The analysis of the inquiry-based learning activity and reports produced by the students provided us with evidence that the epistemic practices experienced by the students during the research activity differ depending on the data type collected by them, in accordance with the explanatory model already known by students or different predicted by these model. In addition, our analysis showed that the research context constitutes an important interpretive repertoire of literary inscriptions produced by the students, favoring the construction of explanations to assure the data collected. The research context was also relevant in the construction of arguments, since most of the justifications used was empirical, especially, in the reports of the students who worked with data not provided by the explanatory model. So after a review of inquiry-based learning activity and reports produced by the students, we found evidence that this inquiry-based learning activity led engagement opportunities in epistemic practices of scientific culture, especially those related to production and interpretation of literary inscriptions, which favored the process of construction of explanations and arguments, fundamental issues for the production of scientific knowledge.

Alfabetização científica

Argumentação

Ensino por investigação

Explicação

Inscrições literárias

Práticas epistêmicas

Argument

Epistemic practices

Explanation

inquiry-based learning activity

Literary inscriptions

Scientific literacy

Superando obstáculos no ensino e na aprendizagem da evolução biológica: o desenvolvimento da argumentação dos alunos no uso de dados como evidências da seleção natural numa sequência didática baseada em investigação / Overcoming obstacles in teaching and learning of biological evolution: the development of argumentation of students in the use of data as evidences of natural selection in a didactic sequence based on inquiry

Sandra Maria Rudella Tonidandel

14 February 2014

A educação científica tem se voltado para atividades pedagógicas que utilizam a prática investigativa de alunos. Um dos objetivos é que os estudantes se apropriem não apenas dos conceitos científicos, mas também das práticas específicas da atividade científica. Uma das pretensões é que os alunos desenvolvam a competência da argumentação científica. Esta investigação pretende compreender como os alunos desenvolvem sua argumentação escrita, analisando a utilização que fazem dos dados como evidências da seleção natural de forma a sustentar suas conclusões na resolução de questões investigativas sobre evolução biológica. Elaboramos uma sequência didática cuja arquitetura estabelece os alicerces para a ação pedagógica do professor e promove uma atuação investigativa dos alunos. A arquitetura da sequência tem duas bases integradoras: a) a educação científica baseada em investigação e b) a matriz de construção histórica da investigação de Darwin sobre a seleção natural como mecanismo da evolução biológica. Para investigar como seria o ensino da evolução biológica que recupera o viés da matriz investigativa utilizada por Darwin, nossa questão-problema foi construída com dois grandes focos: a) como articular intenções conceituais e metodológicas características da natureza das ciências biológicas com a abordagem dos principais obstáculos da construção histórica do conceito de seleção natural numa sequência didática baseada em investigação e b) de como é a utilização de dadosT como evidências da seleção natural na composição da estrutura argumentativa escrita de alunos de ensino médio durante a aplicação de uma Sequência de Ensino de Biologia Baseada em Investigação (SEEBI) para o ensino de evolução biológica. Para investigar nossa questão, elaboramos a SEBBI que foi aplicada por uma professora da rede pública para 125 alunos da 3ª série do ensino médio de uma escola pública estadual de São Paulo. Nossa metodologia é de abordagem qualitativa integrada a uma abordagem quantitativa. Nossos dados compõem-se de: a) materiais (apostilas, modelos experimentais, elementos audiovisuais utilizados nas aulas) e b) apostilas com respostas escritas pelos alunos após as atividades propostas. As análises foram realizadas a partir das apostilas escritas dos alunos, dos materiais elaborados e disponibilizados na SEBBI e na transcrição que realizamos. Os resultados mostram que a SEBBI tem alicerces em intenções conceituais e metodológicas características da biologia. Além disso, os resultados apontam para uma superação de obstáculos conceituais pelos alunos, como a teleologia cósmica e o fixismo, para a construção do conceito de seleção natural. Os resultados das análises apresentam uma melhora na capacidade argumentativa dos alunos, uma forte correlação entre o uso de dados de evolução biológica com a construção de argumentos de maior qualidade pelos alunos, pelo uso de justificativa (garantia e apoio) alicerçada em conhecimento científico. Há evidências da ampliação da construção de argumentos, tanto no aumento do número de componentes utilizados quanto na qualidade dos componentes campos-dependentes da ciência, como o apoio e evidências. Os argumentos construídos passam a apresentar a sustentação baseada em apoio conceitual específico do paradigma das ciências biológicas como a seleção natural, validando as conclusões a partir do uso de dadosT de Toulmin da investigação realizada pelos alunos. / The scientific education has focused on pedagogical activities that use students investigative practice. One of the objectives is so that students not only obtain the scientific concepts, but also the specific practices of science activity. It is a pretention that students develop their scientific argumentation competence. This investigation aims at understanding how students develop their written argumentation, analyzing their use of data as evidence of natural selection in order to sustain their conclusions about biological evolution investigative questions. We made a didactic sequence, which architecture establishes the foundation to the teachers pedagogical actions, and promotes students investigative actions. The sequence lies on two integrative bases: a) an investigation based scientific education and b) Darwins investigation on the natural selection as a mechanism of the historical construction matrix of biological evolution. In order to examine how would it be the biological evolution teaching based in Darwins investigative structure, our problem question was built with two main focuses: a) how could we articulate conceptual and methodological intentions, characteristic to biological sciences, with the approach of the main historical obstacles of natural selection in evolving into the concept of the mechanism of biological evolution in a didactic sequence based upon inquiry and b) how it is the use of data as evidence of natural selection in the high school students written argumentative structure during the application of Inquiry Based Biology Teaching Sequence (SEEBI, in Portuguese) to biological evolution teaching. To investigate our task, we developed a SEEBI that was applied by a public networks teacher to 125 high schools senior year students in a public school of São Paulo. Our methodology has qualitative and quantitative approaches. Our data consists of: a) materials (textbooks, experimental models, audio-visual resources used in class) and b) booklets with answers written by the students after the proposed activities. The data analyses were based upon these booklets, with students written answers, materials elaborated and posted in the SEEBI and also in the transcription we did. The results show that SEEBI has its foundation lied on conceptual and methodological intentions, characteristic to Biology. Furthermore, the results indicate an overcoming of conceptual obstacles as well, such as cosmic teleology and fixism, therefore, building the concept of natural selection as a mechanism of biological evolution. The study of the consequences presents an improvement in students argumentative ability, a strong correlation between the use of data from biological evolution with the construction of higher quality arguments by the students, using justifications (warranty and theoretical support) grounded in scientific knowledge. Theres evidence of an expansion of the arguments construction, both increasing the number of used components as well as the field-dependent components of sciences quality, such as support and evidence. The arguments constructed shall provide support based on specific conceptual assistance in paradigms of Biology, like natural selection, validating the findings from the use of data (Toulmin, 2006) in researches conducted by students.

Argumentação

Ensino e aprendizagem de biologia

Ensino por investigação

Evidências da seleção natural

Sequência didática

Argumentation

Biology teaching and learning

Didactic sequence

Evidences of natural selection

Inquiry based learning

Rozšíření kurikula 1. stupně základní školy o netradiční přírodovědné úlohy / Primary school curriculum enrichment in the subject area of science

Fischerová, Zuzana

January 2017

The results of the international study TIMSS (The Trends in International Mathematics and Science Study) raise concerns that Czech primary pupils fall behind in some content domains of science (namely the physical sciences) and in some skills (experimental skills). This thesis compares the Czech curriculum with the current international trends in the science education and shows that above mentioned topics/skills are not sufficiently covered in the official curriculum. The second part of the thesis describes a case study of a relatively successful implementation of innovative science lessons focused on these skills in three primary classrooms of a Czech school. The concepts of inquiry-based learning, theory of learning materials and lesson study method are the main components of the theoretical and conceptual background of the study. When comparing the Czech curriculum (official documents and textbooks used in school) and school curricular plans with the TIMSS framework, it emerges that both the national curricular framework and the school curriculum do not cover some of those upper mentioned. Based on these findings, a lesson plan introducing some of the missing areas and task types was developed and tested in a particular school. The qualitative research desigh of case study with embedded...

The Effects of an Inquiry-based American History Program on the Achievement of Middle School and High School Students.

Harmon, Larry G.

05 1900

Implicit in the call for educational reform in the teaching of social studies has been the suggestion that pursuing inquiry-based principles will lead to improvement in student achievement. The purpose of this study was to compare the effectiveness of two types of pedagogy: traditional and inquiry-based upon student achievement as measured by a standards-based, state administered examination. Second, this study examined the relationship between the treatment teachers' level of implementation and student achievement. A nonequivalent control group posttest and experimental design was used in this study. Subjects involved in this study include 84 secondary American history teachers and their respective students from a large urban public school district in Texas. The sample consisted of two groups, one taught by traditional/didactic instruction (n=48) and the other taught by inquiry-based pedagogy (n=36). Data for this study were collected using a classroom observation protocol based upon the level of use rubric developed by the concerns-based adoption model. An analysis of variance (ANOVA) (p<.05) was used to measure the effects of inquiry-based instruction and traditional pedagogy on student achievement. Student achievement results were measured by the Texas Assessment of Knowledge and Skills (TAKS) for American history, grades 8 and 11. The study found that mean scores of the Grade 8 History Alive! group were significantly higher than the scores of the control group, but not for the Grade 11 History Alive! group. However, a comparison of mean scores by teachers' level-of-use suggested that the more faithful the teacher in designing standards-based lessons and delivering them through inquiry, the greater retention of American history student's knowledge about the subject.

Inquiry-based learning.

Academic achievement.

inquiry

student achievement

American history