Developing a one-semester course in forensic chemical science for university undergraduates

Salem, Roberta Sue

January 1900

Doctor of Philosophy / Curriculum and Instruction Programs / Tweed R. Ross / John R. Staver / The purpose of this study was to research, develop and validate a one-semester course for the general education of university undergraduates in forensic chemical education. The course outline was developed using the research and development (R&D) methodology recommended by Gall, Borg, and Gall, (2003) and Dick and Carey, (2001) through a three step developmental cycle. Information was gathered and analyzed through review of literature and proof of concept interviews, laying the foundation for the framework of the course outline. A preliminary course outline was developed after a needs assessment showed need for such a course. Professors expert in the area of forensic science participated in the first field test of the course. Their feedback was recorded, and the course was revised for a main field test. Potential users of the guide served as readers for the main field test and offered more feedback to improve the course.

Forensics

Chemistry

Forensic chemistry

Forensic science

Forensics education

Undergraduate education

Chemistry, General (0485)

Education, Adult and Continuing (0516)

Education, Sciences (0714)

Persistence Patterns of Mathematics and Science Majors: A Profile of Highly Motivated Freshmen

Gonzales, Erin E.

08 1900

Despite an increasing demand for college graduates skilled in science, technology, engineering, and mathematics ("STEM") fields, a substantial number of students who choose these majors leave after taking their first-year "gateway" math and science coursework. Research has shown GPA to be a salient predictor of persistence in STEM majors: Students who earn high grades in gateway courses are more likely to continue, and those who earn low grades are more likely to leave. However, a small number of students defy that expectation: Despite a low gateway course GPA, they persist not just to the sophomore year but all the way to graduation. The purpose of this study was to determine what other experiences, motivations, or attributes aside from academic performance influence these students to persist. A qualitative approach was taken with the use of semi-structured interviews, which provided a means for analysis based on insights directly from students. An invitation was sent to a cohort of graduating math and science majors at a large public institution, and 10 eligible volunteers were chosen to participate. A thematic analysis was conducted to seek common themes in the students' interviews regarding their experiences in their gateway coursework, their feelings towards their chosen major, their beliefs about their academic proficiency, their motivations for continuing in their major, and other prominent characteristics they attributed to their persistence. Five themes were found: Ambition, dedication, achievement, culture shock, and resilience. Of the five themes, four are attributes of the students themselves: Ambition, dedication, achievement, and resilience. The fifth, culture shock, is something that happened to them, although it does contain information about the students insofar as how they handled the situation. The end result was the identification of a specific group of students: High achievers majoring in math and science who are self-driven and independent, as well as confident in their abilities. A student fitting this profile is likely to persist in a math or science major despite any initial setbacks they may endure in the first year of coursework. In terms of application, institutions can implement initiatives for incoming freshmen to orient them to their STEM majors and guide them in understanding the attitudes, motivations, and practices that will help them succeed.

STEM

math

science

gateway course

higher education

freshmen

persistence

graduation

motivation

Education, Higher

Education, Mathematics

Education, Sciences

American Lawn Addictions: Effects of Environmental Education on Student Preferences for Xeriscaping as an Alternative in North Central Texas, USA

Williams, Jared L.

05 1900

Urban land use and land cover has changed in the USA, giving rise to the American lawn – manicured, resource-intensive, and non-native. Green infrastructure design has been suggested in the literature as a potential alternative to the American lawn when managed as native xeriscapes, which require little to no irrigation after establishment. Given the influence of public preference on landscaping decisions, what is the relationship between the perceived value and ecological benefits of the American lawn compared to such alternatives? Few studies have explored this question in addition to the effects of college courses on influencing student preferences, as future stakeholders, towards native xeriscapes as alternatives to the American lawn. This research measured the effects of an introductory environmental education (EE) course on measurably influencing undergraduate student preferences for four xeriscapes as alternatives to the American lawn. To measure these effects, this study utilized the perceptions of 488 students enrolled in an indirect introductory EE course and 131 students enrolled in an introductory non-EE course. Three key results emerged from this research. Students preferred the American lawn more than xeriscape alternatives, irrespective to course enrolled. Introductory non-EE did not have an effect on student preferences, whereas indirect introductory EE did show some effects on student preferences. Lastly, student preferences were negatively associated with NPP per photosynthetically active square meter. The data from this study suggests that indirect introductory EE does not shift aesthetic landscape preferences towards pro-environmental alternatives. These results show promise for shifting such preferences via more direct EE approaches.

American lawn

Green infrastructure

Xeriscaping

Landscape preferences

Environmental education

Bermudagrass

Switchgrass

Environmental Sciences

Education, Sciences

Urban and Regional Planning

Caregiver Knowledge of Risk Factors Associated with Complex Congenital Heart Disease and Quality of Life Outcomes

Hutchinson, Jessica B

12 1900

Congenital heart disease is the most common birth defect globally, affecting both children and their families. Twenty –five percent of children experiencing a CHD birth defect are diagnosed with complex CHD (cCHD), signifying critical heart dysfunction requiring one or more open-heart surgeries during the first year of life. With medical advances, cCHD survival rates have almost tripled in the last three decades. This has resulted in an increase in the number of morbidities associated with cCHD, which is drastically impacting the need to support quality of life outcomes for a child with cCHD and their family. The two most prevalent unaddressed risks for quality of life outcomes in the cCHD population are child and caregiver mental health and child's neurodevelopmental disabilities. Congenital heart disease is the most common birth defect globally, affecting both children and their families. Twenty-five percent of children experiencing a CHD birth defect are diagnosed with complex CHD (cCHD), signifying critical heart dysfunction requiring one or more open-heart surgeries during the first year of life. With medical advances, cCHD survival rates have almost tripled in the last three decades. This has resulted in an increase in the number of morbidities associated with cCHD, which is drastically impacting the need to support quality of life outcomes for a child with cCHD and their family. The two most prevalent unaddressed risks for quality of life outcomes in the cCHD population are child and caregiver mental health and child's neurodevelopmental disabilities. The present study sought to address the relationship between caregiver knowledge of cCHD developmental challenges (i.e., outcomes related to neurodevelopmental disabilities, mental health, and provider quality-care approach) and children's and caregiver's quality of life outcomes, inclusive of academic functioning ability of children with cCHD, children with cCHD and their caregivers' mental health functioning, and the overall satisfaction with the nature of the healthcare provider of the child with cCHD. A total sample size of N = 46 participants were included in the current study. Results that caregivers' knowledge of cCHD risks to quality of life outcomes explained a much greater percentage of the variance in caregiver satisfaction with healthcare providers (R2 = 0.350, p < 0.001) compared to number of surgical interventions (R2 = 0.058, p = 0.047). Clinical implications and implementation for use of a holistic, integrated approach are strengthened by the study findings.

Congenital Heart Disease

Quality of Life

Mental Health

Critical Congenital Heart Disease Risks

Health Sciences, Mental Health

Education, Sciences

High School Teaching and Learning Experiences Related to the COVID-19 Pandemic

Ayega, Douglas

08 1900

This phenomenological study explored and described the lived experiences of high school biology teachers from a school district in one of the states in the USA concerning the use of online platforms in online biology teaching and learning during the COVID-19 pandemic. The study interviewed teachers to evaluate the teacher experiences, challenges, and opportunities that online platforms presented in biology instruction during the COVID-19 pandemic. The study also analyzed students' perspectives based on the teachers' responses and district data obtained from the student engagement survey administered to all high school students at the school district every year. The findings of the study indicate that students experienced issues such as lack of engagement, unsuitable home environment to support learning, and poor attendance due to minimal monitoring when learning shifted to fully online. Teacher-related factors included inadequate preparedness to use technology to enhance teaching, limited content delivery, and increased teacher collaboration. In conclusion, the study recommends that school districts sufficiently prepare teachers to improve adaptability to different teaching and learning models, emphasizing the use of diverse educational technologies. Future studies should conduct quantitative or mixed studies to establish the extent and degree to which such factors as poor learner engagement contributed to less than satisfactory outcomes in summative and formative assessments.

COVID-19

Biology

Educational technologies

Learner engagement

Technology Acceptance Model (TAM).

Education, Technology

Education, Sciences

Education, Secondary

The Acceptance and Understanding of Evolutionary Theory among Ohio Secondary Life Science Teachers

Korte, Sarah

03 December 2003

No description available.

Education, Sciences

Theory of Evolution

Intelligent Design

Creationism

Ohio Science Academic Content Standards

Grade-level Indicators

Evolutionary Theory

A comparative study of traditional lecture methods and interactive lecture methods in introductory geology courses for non-science majors at the college level

Hundley, Stacey A.

10 December 2007

No description available.

Geology

Education, Sciences

introductory geology

introductory courses

non-science majors

student instructional preferences

interactive methods

active learning

lecture methods

Relationship of college student characteristics and inquiry-based geometrical optics instruction to knowledge of image formation with light-ray tracing

Isik, Hakan

19 February 2008

No description available.

Education, Sciences

Learning light and optics

light-ray tracing

naive optics conceptions

types of knowledge.

Using geography to help teach history: dual-encoding history lesson plans

Tabor, Lisa Kay

January 1900

Master of Arts / Department of Geography / John A. Harrington Jr / Analysis of polling documents indicates how little most Americans know about the world. Geography education is the key to offsetting geographic illiteracy. Fortunately programs designed to improve K-12 geography education are growing in number and strength. How can we teach more and better geography within the school system? Given the dominant role of history in the K-12 social studies curriculum, use of the psychological theory of dual-encoding to integrate geography and history lesson planning is one approach to bring more geography into the classroom. As part of Kansas Geographic Alliance programmatic activity, Kansas history and geography standards, with emphasis on the tested standards, were assessed to identify candidate themes for development of dual-encoded educational units and associated lesson plans. Three workshops were delivered to share these dual-encoded units and lesson plans. The workshops were for education faculty, teachers getting in-service professional development, and for a group of pre-service teachers in a social studies methods class. Attendees at the workshops provided assessment and feedback of the material. Based on informal comments and written responses from the workshop attendees, it is concluded that dual-encoding will enable considerable progress in geography education. Not only will the knowledge provided demonstrate the impact and significance of geography to history teachers and their students, but dual-encoded lessons will advance teacher content and pedagogical knowledge, and most importantly students will learn both geography and history better.

geography education

dual-encoding

lesson planning

history

Education, Sciences (0714)

Education, Social Sciences (0534)

Education, Teacher Training (0530)

Geography (0366)

Étude des conceptions alternatives et des processus de raisonnement des étudiants de chimie du niveau collégial sur la molécule, la polarité et les phénomènes macroscopiques

Cormier, Caroline

11 1900

La chimie est un sujet difficile étant donné ses concepts nombreux et souvent peu intuitifs. Mais au-delà de ces difficultés d’ordre épistémologique, l’apprentissage de la chimie peut être en péril lorsqu’il s’appuie sur des fondations instables, mêlées de conceptions alternatives. Les conceptions alternatives sont les représentations internes, tacites, des étudiants, qui sont en désaccord avec la théorie scientifiquement acceptée. Leur présence dans leur esprit peut nuire à la compréhension conceptuelle, et elle peut mener les étudiants à expliquer le comportement de la matière incorrectement et à faire des prédictions inexactes en chimie. Les conceptions alternatives sont réputées répandues et difficiles à repérer dans un cadre traditionnel d’enseignement. De nombreuses conceptions alternatives en chimie ont été mises en lumière par différents groupes de chercheurs internationaux, sans toutefois qu’une telle opération n’ait jamais été réalisée avec des étudiants collégiaux québécois. Le système d’éducation postsecondaire québécois représentant un contexte unique, une étude des difficultés particulières de ces étudiants était nécessaire pour tracer un portrait juste de la situation. De plus, des chercheurs proposent aujourd’hui de ne pas faire uniquement l’inventaire des conceptions, mais de s’attarder aussi à étudier comment, par quel processus, elles mènent à de mauvaises prédictions ou explications. En effet, ils soutiennent que les catalogues de conceptions ne peuvent pas être facilement utilisés par les enseignants, ce qui devrait pourtant être la raison pour les mettre en lumière : qu’elles soient prises en compte dans l’enseignement. Toutefois, aucune typologie satisfaisante des raisonnements et des conceptions alternatives en chimie, qui serait appuyée sur des résultats expérimentaux, n’existe actuellement dans les écrits de recherche. Plusieurs chercheurs en didactique de la chimie suggèrent qu’une telle typologie est nécessaire et devrait rendre explicites les modes de raisonnement qui mettent en jeu ces conceptions alternatives. L’explicitation du raisonnement employé par les étudiants serait ainsi la voie permettant de repérer la conception alternative sur laquelle ce raisonnement s’appuie. Le raisonnement est le passage des idées tacites aux réponses manifestes. Ce ne sont pas toutes les mauvaises réponses en chimie qui proviennent de conceptions alternatives : certaines proviennent d’un manque de connaissances, d’autres d’un agencement incorrect de concepts pourtant corrects. Comme toutes les sortes de mauvaises réponses d’étudiants sont problématiques lors de l’enseignement, il est pertinent de toutes les considérer. Ainsi, ces préoccupations ont inspiré la question de recherche suivante : Quelles conceptions alternatives et quels processus de raisonnement mènent les étudiants à faire de mauvaises prédictions en chimie ou à donner de mauvaises explications du comportement de la matière? C’est pour fournir une réponse à cette question que cette recherche doctorale a été menée. Au total, 2413 étudiants ont participé à la recherche, qui était divisée en trois phases : la phase préliminaire, la phase pilote et la phase principale. Des entrevues cliniques ont été menées à la phase préliminaire, pour explorer les conceptions alternatives des étudiants en chimie. Lors de la phase pilote, des questionnaires à choix multiples avec justification ouverte des réponses ont été utilisés pour délimiter le sujet, notamment à propos des notions de chimie les plus pertinentes sur lesquelles concentrer la recherche et pour mettre en lumière les façons de raisonner des étudiants à propos de ces notions. La phase principale, quant à elle, a utilisé le questionnaire à deux paliers à choix multiples « Molécules, polarité et phénomènes » (MPP) développé spécifiquement pour cette recherche. Ce questionnaire a été distribué aux étudiants via une adaptation de la plateforme Web ConSOL, développée durant la recherche par le groupe de recherche dont fait partie la chercheuse principale. Les résultats montrent que les étudiants de sciences de la nature ont de nombreuses conceptions alternatives et autres difficultés conceptuelles, certaines étant très répandues parmi leur population. En particulier, une forte proportion d’étudiants croient que l’évaporation d’un composé entraîne le bris des liaisons covalentes de ses molécules (61,1 %), que tout regroupement d’atomes est une molécule (78,9 %) et que les atomes ont des propriétés macroscopiques pareilles à celles de l’élément qu’ils constituent (66,0 %). D’un autre côté, ce ne sont pas toutes les mauvaises réponses au MPP qui montrent des conceptions alternatives. Certaines d’entre elles s’expliquent plutôt par une carence dans les connaissances antérieures (par exemple, lorsque les étudiants montrent une méconnaissance d’éléments chimiques communs, à 21,8 %) ou par un raisonnement logique incomplet (lorsqu’ils croient que le seul fait de posséder des liaisons polaires rend nécessairement une molécule polaire, ce qu’on observe chez 24,1 % d’entre eux). Les conceptions alternatives et les raisonnements qui mènent à des réponses incorrectes s’observent chez les étudiants de première année et chez ceux de deuxième année du programme de sciences, dans certains cas avec une fréquence diminuant entre les deux années, et dans d’autres, à la même fréquence chez les deux sous-populations. Ces résultats permettent de mitiger l’affirmation, généralement reconnue dans les écrits de recherche, selon laquelle les conceptions alternatives sont résistantes à l’enseignement traditionnel : selon les résultats de la présente recherche, certaines d’entre elles semblent en effet se résoudre à travers un tel contexte d’enseignement. Il demeure que plusieurs conceptions alternatives, carences dans les connaissances antérieures de base et erreurs de raisonnement ont été mises en lumière par cette recherche. Ces problèmes dans l’apprentissage mènent les étudiants collégiaux à faire des prédictions incorrectes du comportement de la matière, ou à expliquer ce comportement de façon incorrecte. Au regard de ces résultats, une réflexion sur l’enseignement de la chimie au niveau collégial, qui pourrait faire une plus grande place à la réflexion conceptuelle et à l’utilisation du raisonnement pour la prédiction et l’explication des phénomènes étudiés, serait pertinente à tenir. / The difficulties found in learning Chemistry are mostly ascribed to the fact that it comprises many complex and counter-intuitive concepts. But beyond these epistemological challenges, learning chemistry can be in jeopardy when it relies on learners’ unstable foundations mixed with alternative conceptions. Alternative conceptions are tacit internal representations that students hold in disagreement with scientifically accepted theories. The presence of alternative conceptions in students’ minds might harm their conceptual understanding leading them to wrongly explain the behaviour of matter and to make incorrect predictions in chemistry. Alternative conceptions are recognised as widespread and difficult to identify in a traditional educational setting. Many alternative conceptions in chemistry have been identified by different groups of researchers in international settings, but such an operation has never been carried out with Quebec college students. As Quebec’s post-secondary education system represents a unique context, a study of the particular difficulties of students in this system was necessary to draw an accurate picture of the situation. Furthermore, researchers presently suggest not only to list such alternative conceptions, but also to explore by what processes they lead to wrong predictions or explanations. Researchers indeed argue that mere lists of alternative conceptions cannot be easily used by teachers, who should be the target audience for these results if they are to take into account alternative conceptions in their teaching. However, no satisfactory typology of reasoning processes and alternative conceptions in chemistry exists today in the research literature. Several researchers in chemistry education suggest that such a typology is needed and should render explicit the reasoning processes involving these alternative conceptions. Explicitation of the reasoning used by the students while performing a task in chemistry would be the way to identify the alternative conception on which this reasoning is based. Reasoning is viewed as the process that proceeds from implicit ideas to explicit answers. Not all wrong answers in chemistry come from alternative conceptions: some come from a lack of knowledge, other from logical errors. Since all types of wrong answers from students are problematic during teaching, it is relevant to consider them all. Thus, these concerns have inspired the following research question: What alternative conceptions and modes of reasoning lead students to make poor predictions in chemistry or to give wrong explanations of the behavior of matter? This doctoral research was conducted to provide an answer to this question. In total, 2,413 students enrolled in Science programmes in Québec’s college (postsecondary pre-university) system were involved in this research, which was divided into three phases: preliminary phase, pilot phase and main phase. Clinical interviews were conducted in the preliminary phase to explore chemistry students’ alternative conceptions. During the pilot phase, multiple-choice questions with open-ended justification were used to delimit the chemistry topics to be studied and to highlight ways of reasoning that students use. The main phase, for its part, used the two-tier “Molecules, Polarity and Phenomena” questionnaire (MPP) developed specifically for this research. The questionnaire was distributed to students via an adaptation of the Consol Web platform, developed by the research group of the principal investigator of this doctoral study. The results show that Science students hold several alternative designs, some of which are quite widespread among the population. In particular, a high proportion of students believe that evaporation causes the breaking of covalent bonds of the molecules (61.1 %), that all atom groups are molecules (78.9 %) and that atoms have similar macroscopic properties as the element (66.0 %). On the other hand, not all bad answers in the MPP show alternative conceptions. Some of them are rather explained by a deficiency in prior knowledge (for example, when students show a lack of knowledge of common chemical elements, 21.8 %) or an incomplete logical reasoning (when they believe the mere possession of polar bonds necessarily makes a molecule polar, which is observed in 24.1% of them). Alternative conceptions and reasoning that lead to incorrect answers are found among first-year and second-year students in the Science program, in some cases with decreasing frequency between the two years, and in others, at the same frequency in both subpopulations. These results mitigate the statement generally found in the research literature, that alternative conceptions are resistant to traditional teaching: according to the results of this research, some of them seem to actually be resolved through such a teaching context. The fact remains, however, that several alternative conceptions, deficiencies in basic prior knowledge and reasoning errors have been highlighted by this research. These learning problems lead college students to make incorrect predictions about the behaviour of matter, or to explain this behaviour incorrectly. In view of these results, a reflection on the teaching of chemistry at the college level, placing a greater emphasis on conceptual thinking and the use of reasoning for the prediction and explanation of the studied phenomena, should be considered.

Conceptions alternatives

Raisonnement en sciences

Enseignement de la chimie

Enseignement postsecondaire

Alternative conceptions

Reasoning in science

Chemistry education

Post-secondary education