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Articles 1 - 30 of 52
Full-Text Articles in Science and Mathematics Education
Toward A More Scientifically Literate Public, Michael Bass
Toward A More Scientifically Literate Public, Michael Bass
UCF Forum
As a society we do a terrible job of educating our children to become scientifically literate. Sure, we have STEM (Science, Technology, Engineering and Mathematics) programs throughout the country, and with some justification we can brag about the successes of students that are in or who have graduated from such learning experiences.
Is Stem For All? Perspectives Of Black And Latino Students On Stem Motivation, Adrienne Coleman
Is Stem For All? Perspectives Of Black And Latino Students On Stem Motivation, Adrienne Coleman
Publications & Research
This presentation takes an intricate look at the factors that motivate gifted and talented Black and Latino students to engage in science, technology, engineering and mathematics(STEM). According to the literature, the U.S. workforce could employ as many as 140,000 additional Black and Latino college graduates in STEM fields annually if the gap in college completion by Blacks and Latinos closed to roughly match that of the White and Asian student graduation rates. Thus, the goal of this presentation is to inform administrators, educators, and programs of a 5-step motivation-based program that encourages Black and Latino students to engage in STEM.
Assessing Student Perceptions Of Indigenous Science Co-Educators, Interest In Stem, And Identity As A Scientist: A Pilot Study, Sarah Alkholy, Fidji Gendron, Tanya Dahms, Maria Pontes Ferreira
Assessing Student Perceptions Of Indigenous Science Co-Educators, Interest In Stem, And Identity As A Scientist: A Pilot Study, Sarah Alkholy, Fidji Gendron, Tanya Dahms, Maria Pontes Ferreira
Nutrition and Food Science Faculty Research Publications
Minorities are underrepresented in the science, technology, engineering, and mathematics (STEM) workforce, post-secondary STEM education, and show high academic attrition rates. Academic performance and retention improve when culturally relevant support is provided. The interface of Western science and Indigenous science provides an opportunity for bridging this divide. We hypothesized that there would be regional (U.S.A. vs. Canada) differences amongst post-secondary students regarding these variables: perceptions of traditional Elders as STEM co-educators; interest in STEM; and self-identity as a scientist. We conducted a short-term longitudinal pilot study of an interdisciplinary, multi-institutional, and cross-cultural STEM course in the spring of 2013. This …
Big Ideas “Ted” Talk Session: Inspiring Innovation And Inquiry, Lawrence Bergie, Britta W. Mckenna
Big Ideas “Ted” Talk Session: Inspiring Innovation And Inquiry, Lawrence Bergie, Britta W. Mckenna
Publications & Research
The day will begin with six stories from innovative school districts, told in a short, engaging, “TED” talk format. After each story, David Chan and Henry Thiele will lead a time of reflection, sharing ideas, thoughts and connections. School professionals will share their stories about themes including: Inspiring Innovation and Inquiry.
Moving Education In2 The Future: Creating The Next Generation Of Innovators, Lawrence Bergie, Britta W. Mckenna
Moving Education In2 The Future: Creating The Next Generation Of Innovators, Lawrence Bergie, Britta W. Mckenna
Publications & Research
What started as planning for the next generation of inquiry-based learning led to an entirely new center for innovation and entrepreneurship! Hear how this innovative idea moved to the design of a physical innovation hub and see how IMSA has transformed a former computer lab IN2 a working prototype of their future space.
Dive into the many aspects of creating innovation spaces: design process, STEM foundation and entrepreneurship cornerstone, Makerspace development through a student leadership and service initiative, collaboration potential with community partners and local/regional business entities, student inquiry and research potential and the ability to showcase area emerging technology …
Evolution Practice 2, Imsa Biology Team
Genetic Drift Simulation, Imsa Biology Team
Genetic Drift Simulation, Imsa Biology Team
Evolution
Genetic drift can be defined as a random fluctuation in gene frequency. More specifically, it tells us that different alleles may increase or decrease in a population in proportion to one another over time, just by chance, rather than due to any fitness advantage.
Mechanisms And Speciation 2: Evolution On The Web Questions, Imsa Biology Team
Mechanisms And Speciation 2: Evolution On The Web Questions, Imsa Biology Team
Evolution
The website below, sponsored by UC Berkeley, is a reliable source for information about evolution. This will give you the introductory information about the mechanisms of Evolution.
Mechanisms And Speciation 1: The Modern Synthesis, Imsa Biology Team
Mechanisms And Speciation 1: The Modern Synthesis, Imsa Biology Team
Evolution
The Modern Synthesis or Synthetic Theory of Evolution is an explanation of evolution that is based on modern genetic principles. According to the Modern Synthesis (a.k.a. Neo-Darwinism):
Evidence Of Evolution 2: Definitions For Evolutionary Evidence Lab, Imsa Biology Team
Evidence Of Evolution 2: Definitions For Evolutionary Evidence Lab, Imsa Biology Team
Evolution
This lab activity was designed to provide you with opportunities to make inferences and draw conclusions about evolution and the common ancestry of various animals based on their anatomical characteristics and comparative anatomy. You will be given tasks to accomplish or questions to answer at each of 11 stations. In order to do this successfully, you must make careful observations of the specimens on display. You must also know the following definitions before beginning this activity:
Evolution Practice 1, Imsa Biology Team
Evolution Practice 1, Imsa Biology Team
Evolution
Answer the following questions using information from the handouts, and examples from the LAB
Evidence Of Evolution 1: Structures, Imsa Biology Team
Evidence Of Evolution 1: Structures, Imsa Biology Team
Evolution
In order to investigate linage, evolutionary history, and common ancestry, you need to be familiar with the following structures.
Essential Questions, Imsa Biology Team
Essential Questions, Imsa Biology Team
Evolution
In order to understand the current state of biological life and how it has changed over time, the following questions must be addressed:
Evidence Of Evolution 3: Evolutionary Evidence And Inferences Lab: A Discussion Guide, Imsa Biology Team
Evidence Of Evolution 3: Evolutionary Evidence And Inferences Lab: A Discussion Guide, Imsa Biology Team
Evolution
This lab activity was designed to provide you with opportunities to make inferences and draw conclusions about evolution and the common ancestry of various animals based on their anatomical characteristics and comparative anatomy. You will be given tasks to accomplish or questions to answer at each of 11 stations. In order to do this successfully, you must make careful observations of the specimens on display.
Sequencing Techniques: A Comparison Assignment, Sarah O'Leary-Driscoll
Sequencing Techniques: A Comparison Assignment, Sarah O'Leary-Driscoll
Sequencing & Genome Mining
With your partner, create some sort of visual (table, map, chart, other, ask me!) that compares the main types of sequencing that we discussed, as well as two of the techniques considered 'next generation'.
Discussion Questions: Genome Mining, Sarah O'Leary-Driscoll
Discussion Questions: Genome Mining, Sarah O'Leary-Driscoll
Sequencing & Genome Mining
No abstract provided.
Alignment Information, Sarah O'Leary-Driscoll
Alignment Information, Sarah O'Leary-Driscoll
Sequence Alignments
Pairwise DNA alignment is frequently used to identify similar regions that will show how two sequences have functional or structural similarities. It can also be used to show how exons and introns change between different sequences and whether they have an effect on the final structure of the RNA after the DNA is processed within a cell.
Alignment Outline, Sarah O'Leary-Driscoll
2: Sequence Alignment Practice Activity, Sarah O'Leary-Driscoll
2: Sequence Alignment Practice Activity, Sarah O'Leary-Driscoll
Sequence Alignments
Now that you have learned how to do the four basic sequence alignments (Pairwise and Multiple for both nucleotide and protein sequences) select a gene/protein, it may be one that you've used before, and run each of these alignments.
Pt. 2: Presentation / Paper Guidelines, Sarah O'Leary-Driscoll
Pt. 2: Presentation / Paper Guidelines, Sarah O'Leary-Driscoll
Research Project
The presentations for your project should follow the same format that the paper would, but in a much more abbreviated form, aim for 5-7 minutes.
Project Guidelines, Sarah O'Leary-Driscoll
Pt. 1: Research Question & Background, Sarah O'Leary-Driscoll
Pt. 1: Research Question & Background, Sarah O'Leary-Driscoll
Research Project
No abstract provided.
Primer Design Activity, Sarah O'Leary-Driscoll
Obtaining Genomic Sequence Practice, Sarah O'Leary-Driscoll
Obtaining Genomic Sequence Practice, Sarah O'Leary-Driscoll
Introduction to NCBI
No abstract provided.
Dna Timeline And Poster Project, Sarah O'Leary-Driscoll
Dna Timeline And Poster Project, Sarah O'Leary-Driscoll
Genomics: Past & Future
The DNA timeline goes through many of the major discoveries that have driven our understanding of genetics since Mendel. Pick two scientists and create a PowerPoint slide poster (to be printed out on regular printer sized paper) that covers the following:
3: Genomics: Past & Future Bibliography, Sarah O'Leary-Driscoll
3: Genomics: Past & Future Bibliography, Sarah O'Leary-Driscoll
Genomics: Past & Future
No abstract provided.
Future Of Genomics: Presentations, Sarah O'Leary-Driscoll
Future Of Genomics: Presentations, Sarah O'Leary-Driscoll
Genomics: Past & Future
In his testimony to a House of Representatives sub-committee on health, director of the National Human Genome Research Institute, Francis S. Collins, said that the future of genomics had three main focal points:
"Genomics to Biology: The human genome sequence provides foundational information that now will allow development of a comprehensive catalog of all of the genome's components, determination of the function of all human genes, and deciphering of how genes and proteins work together in pathways and networks.
Genomics to Health: Completion of the human genome sequence offers a unique opportunity to understand the role of genetic factors in …
Database/Resource Acronyms, Sarah O'Leary-Driscoll
Database/Resource Acronyms, Sarah O'Leary-Driscoll
Course Information
No abstract provided.
What Is Bioinformatics?, Sarah O'Leary-Driscoll
What Is Bioinformatics?, Sarah O'Leary-Driscoll
Course Information
Bioinformatics has evolved into a full-fledged multidisciplinary subject that integrates developments in information and computer technology as applied to Biotechnology and Biological Sciences. Bioinformatics uses computer software tools for database creation, data management, data warehousing, data mining and global communication networking. Bioinformatics is the recording, annotation, storage, analysis, and searching/retrieval of nucleic acid sequence (genes and RNAs), protein sequence and structural information. This includes databases of the sequences and structural information as well methods to access, search, visualize and retrieve the information. Bioinformatics concern the creation and maintenance of databases of biological information whereby researchers can both access existing information …
Comprehensive Course Syllabus, Sarah O'Leary-Driscoll
Comprehensive Course Syllabus, Sarah O'Leary-Driscoll
Course Information
The bioinformatics seminar is focused on developing an understanding of the principles behind genomic analyses, developing skills using the different available bioinformatics programs, and becoming aware of the past developments and current research avenues that are benefited by these types of analyses.