Onderzoek bij den mensch naar erfelijkheid van physiologische en pathologische kenmerken van het oog ...

Waardenburg, P. J.

January 1913

Proefschrift--Utrecht. / "Litteratuurlijst": p. [227]-232. "Stellingen: p. [233]-238.

Heredity. Eye Mendel's law.

A case of Mendelian inheritance complicated by heterogametism and mutation in Oenothera pratincola,

Cobb, Frieda,

January 1921

Thesis (Ph. D.)--University of Michigan, 1920. / "Papers from the Department of botany of the University of Michigan, no. 181." From Genetics, v. 6, no. 1, Jan. 1921. "Literature cited": p. 15.

Effect of sequenced instruction in introductory mendelian genetics on Piagetian cognitive development in college students

Walker, Richard Andrew

January 1978

In this study, a sequenced, self-"earning guide and a supplementary instructional kit designed to facilitate a student's ability to apply formal operational thought patterns to problems requiring Mendelien genetic analysis were developed and tested. A pre/post-test was designed to test the application of formal operational reasoning patterns and acquired knowledge about Mendelian principles to the solving of problems in genetics. A seven-item, written Piagetian Task Instrument (PTI) containing tasks requiring propositional logic, combinatorial logic, and hypethetico-deductive reasoning was developed and employed to detect cognitive growth toward. the formal operational level. These two instruments were administered in the pre/post-test, format to a control group and to a treatment group, allowing for the testing of the following null hypotheses:Null Hypothesis. 1. There are no significant systematic differences within the classes of the treatment group.Nul1 Hypothesis 2. There are no significant systematic differences within the classes of the control group.Null Hypothesis 3_. There are no statistically significant differences within the classes with regard to sex.Null Hypothesis 4. There are no significant differential effects of the experimental treatment on males and females.Null Hypothesis 5. There is no significant correlation between the content post-test score and th total PTI post-test score. Null Hypothesis 6. There is no significant difference between the adjusted content post-test mean for the treatment group and the adjusted content post-test mean for the control group.Failure to reject null Hypotheses 1, 2, 3, and 4 indicated that there were no systematic differences within the groups with regard to class, meeting time, or sex of the individual. Therefore, each group was statistically treated as a homogenous group. Null Hypothesis 5 was rejected at the .028 level. Since the content post-test referred to in null Hypothesis 5 was determined to be a valid measure of the ability to perform genetic analysis and since the PTI referred to in null Hypothesis 5 was shown to be an effective measure of formal operations, rejection of null Hypothesis 5 indicated that performing genetic analysis requires the application of formal reasoning patterns. Null hypothesis 6 was also rejected. Failure to reject null Hypotheses 1,2, 3, and 4 indicated that the differences between the adjusted content post-test means was the direct result of the instructional treatment. Analysis of the pre/post-test data revealed that those students who received instruction via the sequenced, self-learning materials scored significantly higher (.0001) than did students taught the same material in the traditional manner. Thus, the sequenced instruction developed for the study was effective in increasing student performance on a problem-solving test in Mendelian genetics.The investigation also explored possible relationships between scholastic performance and the ability to perform Piagetian formal operational tasks. The results of this investigation indicated that the ability to perform two of the three elements of Piagetian formal operations is prerequisite to the ability to analyze complex problems in Mendelian genetics. Specifically, the .findings suggested that the higher-order reasoning patterns of propositional logic and combinatorial logic are essential for inductive and deductive analysis of genetic data.An unexpected finding of the study indicated that the ability to perform the formal operation of hypothetico-deductive reasoning is unrelated to problem- solving in Mendelian genetics. However, suice the application of propositional and/or combinatorial logic in the solving of genetics problems also requires consideration of the effects of alternate hypotheses, one may also assume that the ability to perform hypothetico-deductive reasoning is necessary, but, alone, is not sufficient for the ability to apply genetic analysis.The results of the study generated the following major conclusions:1. The written PTI developed for the study is an effective measure of an individual's ability to apply Piagetian formal operations.2. The logical sequencing of self-instructional materials via performance objectives can facilitate the student's ability to apply Piagetian formal operations to genetic analysis.

Genetics.

Mendel's law.

Cognition.

Piaget, Jean, 1896-1980.

Projeto Genus: uma ferramenta pedagógica para auxiliar no processo ensino-aprendizagem de genética / Genus project: an educational object to assist in the process of learning and teaching genetics

Doliveira, Helio Sylvestre Dias

18 December 2015

Acompanha: Manual do usuário do produto pedagógico Projeto Genus / O presente trabalho tem por objetivo a produção de um objeto educacional no formato de jogo didático, intitulado Projeto Genus, que constitui material de apoio e recurso facilitador para a compreensão da Genética mendeliana clássica. Este jogo é o produto referente a mestrado profissional desenvolvido no âmbito do Programa de Pós-Graduação em Formação Científica, Educacional e Tecnológica – PPGFCET – da Universidade Tecnológica Federal do Paraná (UTFPR). Parte-se da constatação que a compreensão dos fenômenos hereditários é constantemente referenciada como ponto de grandes dificuldades no ensino de biologia, particularmente o ensino de genética. O Projeto Genus foi concebido enquanto proposta metodológica e elemento motivacional para instigar uma prática de ensino visando à construção do conhecimento científico em contexto que proporciona uma interação de maior qualidade entre alunos e professores, estimulando relações cooperativas. Considerando o aspecto educacional, foram utilizados como princípios pedagógicos norteadores a aprendizagem significativa e as metodologias ativas aplicadas na fixação dos conhecimentos teóricos a respeito da genética mendeliana clássica trabalhada no ensino médio. A dinâmica do jogo inclui elementos que remetem à ficção científica e é inspirada em conceitos de “gamificação”. São apresentadas evidências, a partir da utilização do Projeto Genus em sala de aula, de que o jogo constitui material didático com potencial de ser utilizado em aulas genética, fomentando a interação entre professor e alunos no sentido de promover o protagonismo destes no processo educativo. / This work aims at the production of an educational object based on a game platform, entitled Genus Project. Our objective is to support and facilitate the understanding of classical mendelian genetics. This project is under a Professional Masters’ program in Scientific, Educational and Technological Formation – PPGFCET – at the Federal University of Technology, Paraná (UTFPR). Game platforms constitute important educational objects and motivational strategies to stimulate students’ learning. Games can also be considered as alternative proposals for the teaching of diverse aspects of scientific knowledge; in addition, they provide high quality interaction between students and teachers, encouraging cooperative relations between them. From the educational aspect, we focused on meaningful learning and active learning methodologies as pedagogical principles for the teaching of classical mendelian genetics at high school level. Hereditary phenomena are often pointed out as a especially difficult subject in the learning of genetics. Therefore, the Genus Project was developed in order to present alternatives to overcome those difficulties by establishing a science fiction scenario for the game – which is inspired by concepts of "gamification" – including traditional exercises and problems in genetics. In this way, the game stimulates students’ interaction, and promotes educational strategies to empower students and make them protagonists of their own learning process.

CNPQ::CIENCIAS HUMANAS::EDUCACAO

Genética - Estudo e ensino

Mendel, Lei de

Jogos educativos

Professores e alunos

Aprendizagem

Prática de ensino

Tecnologia educacional

Ciência - Estudo e ensino

Genetics - Study and teaching

Mendel's law

Educational games

Teacher-student relationships

Learning

Student teaching

Educational technology

Science - Study and teaching

Projeto Genus: uma ferramenta pedagógica para auxiliar no processo ensino-aprendizagem de genética / Genus project: an educational object to assist in the process of learning and teaching genetics

Doliveira, Helio Sylvestre Dias

18 December 2015

Acompanha: Manual do usuário do produto pedagógico Projeto Genus / O presente trabalho tem por objetivo a produção de um objeto educacional no formato de jogo didático, intitulado Projeto Genus, que constitui material de apoio e recurso facilitador para a compreensão da Genética mendeliana clássica. Este jogo é o produto referente a mestrado profissional desenvolvido no âmbito do Programa de Pós-Graduação em Formação Científica, Educacional e Tecnológica – PPGFCET – da Universidade Tecnológica Federal do Paraná (UTFPR). Parte-se da constatação que a compreensão dos fenômenos hereditários é constantemente referenciada como ponto de grandes dificuldades no ensino de biologia, particularmente o ensino de genética. O Projeto Genus foi concebido enquanto proposta metodológica e elemento motivacional para instigar uma prática de ensino visando à construção do conhecimento científico em contexto que proporciona uma interação de maior qualidade entre alunos e professores, estimulando relações cooperativas. Considerando o aspecto educacional, foram utilizados como princípios pedagógicos norteadores a aprendizagem significativa e as metodologias ativas aplicadas na fixação dos conhecimentos teóricos a respeito da genética mendeliana clássica trabalhada no ensino médio. A dinâmica do jogo inclui elementos que remetem à ficção científica e é inspirada em conceitos de “gamificação”. São apresentadas evidências, a partir da utilização do Projeto Genus em sala de aula, de que o jogo constitui material didático com potencial de ser utilizado em aulas genética, fomentando a interação entre professor e alunos no sentido de promover o protagonismo destes no processo educativo. / This work aims at the production of an educational object based on a game platform, entitled Genus Project. Our objective is to support and facilitate the understanding of classical mendelian genetics. This project is under a Professional Masters’ program in Scientific, Educational and Technological Formation – PPGFCET – at the Federal University of Technology, Paraná (UTFPR). Game platforms constitute important educational objects and motivational strategies to stimulate students’ learning. Games can also be considered as alternative proposals for the teaching of diverse aspects of scientific knowledge; in addition, they provide high quality interaction between students and teachers, encouraging cooperative relations between them. From the educational aspect, we focused on meaningful learning and active learning methodologies as pedagogical principles for the teaching of classical mendelian genetics at high school level. Hereditary phenomena are often pointed out as a especially difficult subject in the learning of genetics. Therefore, the Genus Project was developed in order to present alternatives to overcome those difficulties by establishing a science fiction scenario for the game – which is inspired by concepts of "gamification" – including traditional exercises and problems in genetics. In this way, the game stimulates students’ interaction, and promotes educational strategies to empower students and make them protagonists of their own learning process.

CNPQ::CIENCIAS HUMANAS::EDUCACAO

Genética - Estudo e ensino

Mendel, Lei de

Jogos educativos

Professores e alunos

Aprendizagem

Prática de ensino

Tecnologia educacional

Ciência - Estudo e ensino

Genetics - Study and teaching

Mendel's law

Educational games

Teacher-student relationships

Learning

Student teaching

Educational technology

Science - Study and teaching