Introduction to chemistry Part 2

1. Introduction to chemistryPart 2 Chemistry far and wide

2. Objectives • When you complete this presentation, you will be able to • Identify some areas of research affected by chemistry • Describe some examples of research in chemistry • Distinguish between macroscopic and microscopic views

3. Materials • Scientists continue to look for new materials. • Chemists design materials to fit specific needs. • One day, in 1948, a Swiss engineer named Gorge de Mestral, took a look at the burrs that stuck to his clothing after his hike. • The hooks of the burrs were stuck in the loops of his clothing. • de Mestral went on to patent the hook and loop material we call Velcro in 1955.

4. materials • de Mestral’s work shows several things that can occur when working with materials. • He could see the individual burrs that were attached to his clothing. • That is a macroscopic observation. • He could not see the individual hooks of the burrs and loops of his clothing. • Those are microscopic observations. • In chemistry, we must be careful to distinguish between what we can observe at the macroscopic level and what we can see (or infer) at the microscopic level. • Chemistry often occurs at the sub-microscopic level.

5. Energy • One of the most important issues in modern society is energy. • We use it to heat buildings, manufacture goods, process foods, and transport people and goods around the world. • Chemists play an essential role in finding ways to conserve energy, produce energy, and store energy.

6. Energy • Energy Conservation • Insulation is one of the safest ways to conserve energy • It prevents the flow of heat between two adjacent locations. • An example of a new insulator developed by chemists is graphene aerogel.

7. Energy • Energy Production • We currently produce energy from oil, coal, and natural gas. • These are our traditionalsources of energy. • Chemists have developed new sources of energy production, such as biodiesel and saw grass ethanol.

8. Energy • Energy Storage • The release of chemical energy is not restricted to just burning. • Chemical energy can also be stored as electrical potential energy in a batteryor fuel cell. • Chemists have been at the forefront of developments in lighter weight, energy dense batteries such as lithium ion batteries.

9. Medicine and Biotechnology • Chemistry is applied to all areas of inquiry in medicine and biotechnology. • Chemistry supplies the medicines, materials, and technology that doctors use to treat their patients.

10. Medicine and Biotechnology • Medicines • There are over 2,000 prescription drugs currently on the market. • They are used to treat infections, high blood pressure, depression, and ADD. • These drugs are effective because we are starting to understand the interactionbetween the drugs and the cells they treat. • The knowledge of the structuresand functionsof various chemical groups allows us to design much better drugs as time goes on.

11. Medicine and Biotechnology • Materials • Chemists supply the new materials that are used in medicine to replace diseased parts of the body. • Arteries and veins • Joints • Skin • Bones

12. Medicine and Biotechnology • Biotechnology • The biotechnology revolution started with the discovery of the structure of DNA by James Watson and Francis Crick. • The Human Genome Project sequenced human DNA in 2003. • We now are able to have our own DNA sequenced in lessthan a week and for less than $1,000. • We now even tailor treatment for a variety of diseases on the basis of an individual’s genetic code.

13. Agriculture • The population of the earth continues to increase while the area of land available for growing food is decreasing. • Chemists help to develop more productive crops and safer, more effective ways to protect crops.

14. Agriculture • Productivity • Chemists are involved in testing soil and water used to grow food. • They also develop fertilizers that are specific for particular plants and particular conditions (such as drought or brine conditions).

15. Agriculture • Crop Protection • Farmers have been using non-specific pesticides to control pests for over 100 years. • Chemists are developing pesticides that are particular to the species of plant needing protection and to the species of the pest. • In addition, chemists are developing plants that have a natural immunity to pests without the application of a pesticide.

16. The Environment • Our world is often the scene of the release of pollutants into the environment. • Chemists help to identify pollutants and prevent pollution.

17. The Environment • Identify Pollutants • An example of identifying an environmental pollutant is the chronic lead pollution in the developed world. • This followed a decades long investigation bygeochemist Clair Patterson (1922-1995), who also calculated the age of the Earth. • Subsequently, lead was removed from gasoline and paint.

18. The Environment • Prevent Pollution • New paints and gasoline additives have been developed that are much more effective than lead. • New techniques have been developed to decrease the pollution in chemical processes and these resulted in the award of a Nobel Prize (2005) to Yves Chauvin, Robert H. Grubbs, and Richard R. Shrock.

19. The Universe • Chemists study the universe by examining materials brought back from space exploration. • Chemists also design robots that can chemically analyze samples millions of miles away. • Chemists can also use starlight through instruments called spectroscopes to analyze the chemical composition of stars and planets many light years away.