- University of South Florida ORGANIC CHEMISTRY CHM 2210 - Spring 2014. University of South Florida ORGANIC CHEMISTRY CHM 2210 - Spring 2019. CHM 2010 - Organic Chemistry Lab (204 Documents) CHM 4300 - Biomolecules (168 Documents) Company About Us Scholarships.
- The catalog presents the general and academic regulations, programs of study, entrance requirements, and course offerings of the university. It is important to note that the catalog represents the inventory of courses, not all of which are necessarily offered in any given semester. Additionally, the catalog provides information about student life and services, and campus resources and facilities.
- Studying CHM2210L Organic Chemistry Laboratory I at University of South Florida? On StuDocu you find all the study guides, past exams and lecture notes for this course.
Research in the Lewis group focuses on current trends in the teaching and learning of chemistry at the undergraduate level. Lewis, Scott: Dr. Scott Lewis is interested in novel forms of student assessment in chemistry, evaluation of pedagogical reforms and in better understanding the sources and remedies of student attrition in chemistry.
Skip Over Breadcrumbs and Secondary NavigationGeneral Chemistry Lab
Faculty Contact
Sherrisse Bryant
Instructor, General Chemistry Lab Coordinator
BSF 315
Instructor, General Chemistry Lab Coordinator
BSF 315
DESCRIPTION
This course is an introduction to the science of Chemistry from the point of view of practicing chemists! Based on the premise that science should be taught as it is practiced the lab will be a place where you, along with your group members, will have an opportunity to get familiar and confident with chemistry methods by applying them to address practical questions. You will work on several projects throughout the semester in which you will plan, experiment and evaluate your own chemical procedures and results. Each of these projects revolves around main concepts, techniques, and activities relevant to chemistry in many areas of human activities1, such as: product quality control, prediction of chemical and physical behavior of substances, among others.
You will engage in activities in and out of the laboratory that aim to help you meet the learning goals of the chemistry laboratory:2 Enhancing mastery of subject matter; developing scientific reasoning; understanding the complexity and ambiguity of empirical work; developing practical skills; understanding the nature of science; cultivating interest in science and interest in learning science; and developing teamwork abilities.
US National Research Council (NRC) Report, Beyond the Molecular Frontier, 2003.
US National Research Council (NRC) Report, America's Lab Report.
US National Research Council (NRC) Report, America's Lab Report.
COOPERATIVE, PROJECT-BASED, AUTHENTIC EXPERIMENTS IN THE GENERAL CHEMISTRY LABORATORY (ACE-LABS)
The ACE-Labs course aims to offer an introduction to the science of chemistry from the point of view of practicing chemists. Its core idea is to facilitate students' understanding of the relevance of scientific research in modern society. For many young citizens, the very complex and rapid scientific and technological development of our society is a huge black box. Many perceive the benefits, technological gadgets, advances in medicine and materials, etc. but do not really comprehend their origin and their connection with scientific research. The ACE-Labs course aims to create research connections for the students that will bring them closer to understanding research as a social endeavor and its reach.
COOPERATIVE, PROJECT-BASED, AUTHENTIC EXPERIMENTS LEARNING LABORATORY INSTRUCTION
Project-based instruction is an instructional strategy that uses challenging tasks in the form of open-ended questions or problems that learners need to solve. The crafting of these projects is such that by working on finding their solution the learners encounter an authentic need to know and master the concepts, principles, techniques and skills associated with the subject. To better accomplish these goals, projects are extended (multi-week) and complex in nature offering learners multiple opportunities for problems solving at different levels and time for exploration and reflection. Project-based learning posits learners in a position that requires them to take charge of their learning, practice critical and creative thinking, produce arguments, collaborate and negotiate meaning and other skills that are transferable and not content-specific.
The ACE-Lab projects constitute authentic experiments. Here experimenting is understood as 'trying out' guided by the desire to 'find out' answers to questions or further information about an observed or theoretical phenomenon. Experimenting is similar to problem solving in that it encompasses anything that is done when faced with 'not knowing what to do'. These experiments strive to provide learners with a context to apply and further develop their chemical knowledge and understanding, that is, to strengthen their chemistry conceptual frameworks.
THE ROLE OF THE INSTRUCTOR
The role of the instructor is in the ACE-Labs it that of an advisor or coach. As the objective of this lab is to let students make their own decision about what to do for each project, your lab instructor is there not to provide you with the 'right' answers. However, the instructor is there to provide guidance and he or she will not let you drift away or struggle indefinitely. Source filmmaker download for macbook. Your instructor will make suggestions and give you ideas about your proposed experiments and work, but at any point the instructor will not give you a direct procedure on what to do and how to do it.
Also, it is important to mention that your instructor is not the only available resource for you in this lab. Your will be assigned to a group of students to work with. In your group you may find people with ideas about the projects that you should take advantage of exploring and considering, just remember to be critical of the ideas not of the people suggesting those ideas!
Usf Organic Chemistry Lab
THE ROLE OF THE STUDENT
The ACE-labs are design to provide students with the opportunity to explore chemistry from a scientist point of view. As you might know, scientific exploration is looking into novel discoveries, experiments never done before and testing ideas never considered before. To achieve that, many scientist need to develop their own method and experiments. In the scientific exploration there is no 'right or wrong' answer, only observations, trials and data collection from which conclusions arrive from. There is always room for innovation, improvement and re-design of the experiments. In the ACE-labs this will be the objective of the projects, to provide you with opportunities to discover new ideas about chemistry.
Many of the problems presented in the ACE-labs will require a team to solve them. This means you will be assigned with a group of students at the beginning of the semester to work together and tackle these problems. Research on laboratory experiences in chemistry has shown that cooperative problem-based laboratories foster and exercise skills you can carry into the rest of your life and these are essential for many work industries in almost all fields.
CLick Belows for Gen CHem Lab Links:
Skip Over Breadcrumbs and Secondary NavigationOrganic Labs
Faculty Contact
Solomon Weldegirma
Instructor, Organic Chemistry Lab Coordinator
BSF 316
813-974-6308
Instructor, Organic Chemistry Lab Coordinator
BSF 316
813-974-6308
Description
Usf Organic Chemistry Lab Manual Free
This laboratory course (Organic I and II) conveys the important fundamental Organic Chemistry concepts and techniques, introduces state-of-the-art strategies and methods and provides a safer learning environment. The laboratory experiments highlight the important chemical concepts and techniques that are traditionally taught while introducing new green chemical concepts and recently developed experimental techniques. Students will apply the learned techniques to new problems with a focus on synthetic perspective using fundamental named organic reactions applied to the transformation of one material into another.
Usf Chemistry Phd
Students will be introduced with green organic experiments which will make the lab experience safer and produce less costly waste. The curriculum is designed to minimize production of chemical waste and provides a safer working environment (nearly eliminating the need for expensive fume hoods). At the end of the course, students are expected to know the fundamental techniques of organic chemistry including methods of isolation, purification, and structural identification with applications to synthetic and mechanistic problems. As the course will focus on fundamental reactions and techniques applicable to various fields of organic chemistry, students will be familiarized with the basic principles and techniques of organic chemistry.
Usf Chemistry Courses
Organic Teaching Laboratory (NES)