Courses tagged with "Diencephalon" (158)

In this chemistry course, you will learn about “Life in the Universe." We will explore DNA as genetic material and atoms as the building blocks of life. We will discuss the discovery and key features of the double helical structure of DNA and the chemical principles behind the sugar-phosphate backbone and hydrogen bonding in the base pairs will be emphasized. We will also discuss identification DNA as genetic material.

At the end of the course, you will learn how and why atoms are bonded to make molecules such as DNA and the discovery of argon will be used to explain the valency and reactivity of different elements based on the periodic table.

To help learners better understand the material, we will be referencing Nobel lectures and scientific papers such as:

• Watson and Crick’s 1953 paper in Nature
• Rayleigh’s 1904 Nobel Lecture on the discovery of argon
• The 1944 paper in J. Experimental Medicine by Avery, MacLeod, and McCarty
• Perrin’s 1928 Nobel Lecture

Los materiales que utilizamos diariamente y los objetos que nos rodean están formados por sustancias químicas cuyas propiedades, aplicaciones y transformaciones dependen del tipo de enlace que las caracteriza. El tipo de enlace condiciona la interacción entre las moléculas de un compuesto. El estudio del enlace típico de un compuesto y de las interacciones entre sus moléculas es competencia de la Química, una materia básica que se estudia en muchas titulaciones universitarias. Este curso va dirigido a los alumnos que acceden a la Universidad, especialmente aquellos que no han cursado Química y que requieren de los conocimientos básicos en estos aspectos.
 
En este curso aprenderás a identificar los tipos de enlace que pueden presentarse en los diferentes compuestos químicos y a predecir qué tipo de enlace predomina en un compuesto en base a las características de los elementos que lo constituyen. Así mismo, podrás deducir qué enlace presenta un compuesto observando sus características y comportamiento. Profundizarás en el estudio del enlace covalente y entenderás la relación entre las interacciones moleculares y las propiedades físicas de los compuestos. En definitiva, adquirirás las habilidades necesarias para reconocer todo tipo de enlaces y relacionar la estructura de un compuesto con las propiedades físicas que manifiesta.
 
En el curso trataremos: 

1. Enlace químico y tipos
2. Enlace iónico y metálico
3. Enlace covalente. Geometría y propiedades de las moléculas
4. Interacciones moleculares

"Energy, Environment and Society" is an opportunity for first-year students to make direct contributions to energy innovations at MIT and in local communities. The class takes a project-based approach, bringing student teams together to conduct studies that will help MIT, Cambridge and Boston to make tangible improvements in their energy management systems. Students will develop a thorough understanding of energy systems and their major components through guest lectures by researchers from across MIT and will apply that knowledge in their projects. Students are involved in all aspects of project design, from the refinement of research questions to data collection and analysis, conclusion drawing and presentation of findings. Each student team will work closely with experts including local stakeholders as well as leading technology companies throughout the development and implementation of their projects. Projects in this course center on renewable energy and energy efficiency.

Learn how to make effective decisions about your future career and how to take control of your professional development by honing your critical thinking and employability skills. Suitable for anyone undertaking some form of study, regardless of academic discipline, interests or employment background.

Chemistry is an integral part of our lives and the world we live in. Chemistry explains the world around us. Are you a college student intimidated by a chemistry course? Do you need a head start in exploring chemistry in order to be prepared for general chemistry courses? In this pre-college course, students will be introduced to the fundamentals of chemistry. Concepts, terminologies, and basic mathematics skills required for conversions in chemistry will be covered. This basic chemistry course is recommended for McHenry County College

This is an Exploratorium Teacher Institute professional development course open to any science teacher (particularly middle or high school level) and light enthusiast. Participants will engage in hands-on STEM activities that allow them to directly experience natural phenomena and gain an understanding of how the Exploratorium helps people learn.

Eating well and understanding the nuances of food has become a complicated and often confusing experience. Virtually every day brings news about some “miracle food” that we should be consuming or some "poison" we should be avoiding. One day it's tomatoes to prevent cancer, then flaxseed against heart disease or soybeans for menopause. At the same time, we are warned about trans fats, genetically modified foods, aspartame and MSG. Dietary supplements are often touted as the key to health or a factor in morbidity. According to some, dairy products are indispensable while others urge us to avoid them. The same goes for meat, wheat and soy; the list goes on.

This course will shed light on the molecules that constitute our macro and micronutrients and will attempt to clarify a number of the food issues using the most relevant, up-to-date science available. Other topics to be presented will include the diet-cancer relationship, the link between diet and cardiovascular disease, food-borne illnesses, food additives and weight control.

Toda la materia está formada por elementos o compuestos químicos que son resultado de la combinación de átomos. Cada compuesto presenta una determinada composición que se corresponde con una fórmula y se identifica con un nombre. La formulación y la nomenclatura sirven para clasificar y nombrar las diferentes clases de sustancias. Este curso va dirigido a los alumnos que acceden a la Universidad, especialmente, aquellos que no han cursado Química y que requieren de los conocimientos básicos en estos aspectos.
 
En este curso aprenderás las normas que se utilizan para establecer las fórmulas de las sustancias y especies químicas, así como las reglas necesarias para nombrarlas. De este modo, podrás identificar y nombrar correctamente los compuestos químicos inorgánicos y orgánicos más comunes.
 
Las unidades del curso son: 

1. Introducción y nomenclatura de sustancias inorgánicas
2. Sustancias binarias
3. Sustancias terciarias
4. Sustancias cuaternarias
5. Introducción a la formulación y nomenclatura de compuestos orgánicos
6. Hidrocarburos
7. Funciones halogenadas
8. Funciones oxigenadas
9. Funciones nitrogenadas
10. Compuestos con dos o más grupos funcionales

This is the first semester in a two-semester introductory course focused on current theories of structure and mechanism in organic chemistry, their historical development, and their basis in experimental observation. The course is open to freshmen with excellent preparation in chemistry and physics, and it aims to develop both taste for original science and intellectual skills necessary for creative research.

This is a continuation of Freshman Organic Chemistry I (CHEM 125a), the introductory course on current theories of structure and mechanism in organic chemistry for students with excellent preparation in chemistry and physics. This semester treats simple and complex reaction mechanisms, spectroscopy, organic synthesis, and some molecules of nature.

This is a general chemistry course for college freshmen who are majoring in science, medicine or engineering. 这是一门面向大学理科生的普通化学课程。

Global Warming Science teaches you about the risks and uncertainties of future climate change by examining the science behind the earth’s climate. You will be able to answer such questions as, “What is the Greenhouse Effect?” and “How and why has earth’s climate changed through geologic history?”

This science course is designed for college sophomores and juniors with some preparation in college-level calculus and physics. 

Gain a foundational understanding of the world of 2-dimensional materials, including Graphene. This course provides an overview of this exciting new field of study, starting with the concept of what a 2-dimensional material is, how they are produced, their unique and superlative properties, and the range of potential applications.

As fossil-based fuels and raw materials contribute to climate change, the use of renewable materials and energy as an alternative is increasingly important and common. This transition is not a luxury, but rather a necessity. We can use the unique properties of microorganisms to convert organic waste streams into biomaterials, chemicals and biofuels. This course provides the insights and tools for the design of biotechnology processes in a sustainable way. Five experienced course leaders will teach you the basics of industrial biotechnology and how to apply these to the design of fermentation processes for the production of fuels, chemicals and foodstuffs.

Throughout this course, you will be challenged to design your own biotechnological process and evaluate its performance and sustainability. This undergraduate course includes guest lectures from industry as well as from the University of Campinas in Brazil, with over 40 years of experience in bio-ethanol production. The course is a joint initiative of TU Delft, the international BE-Basic consortium and University of Campinas.

LICENSE: The course materials of this course are Copyright Delft University of Technology and are licensed under a Creative Commons Attribution-NonCommercial-ShareAlike (CC-BY-NC-SA) 4.0 International License.

5.32 involves more advanced experimental work than 5.310 or 5.311. The course emphasizes organic synthesis assisted by chiral catalysis, purification, and analysis of organic compounds employing such methods as IR, 1D and 2D NMR, UV spectroscopies and mass spectrometry, and thin layer and non-chiral and chiral gas chromatography. In 5.32, experiments also involve enzyme purification, characterization and assays, as well as molecular modeling in organic synthesis and in biochemical systems.