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Chapter 1 “ Introduction to Chemistry”

Chapter 1 “ Introduction to Chemistry”. Section 1.1 Chemistry. OBJECTIVES: Identify five traditional areas of study in chemistry. Section 1.1 Chemistry. OBJECTIVES: Relate pure chemistry to applied chemistry. Section 1.1 Chemistry. OBJECTIVES: Identify reasons to study chemistry.

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Chapter 1 “ Introduction to Chemistry”

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  1. Chapter 1“Introduction to Chemistry”

  2. Section 1.1Chemistry • OBJECTIVES: • Identify five traditional areas of study in chemistry.

  3. Section 1.1Chemistry • OBJECTIVES: • Relate pure chemistry to applied chemistry.

  4. Section 1.1Chemistry • OBJECTIVES: • Identify reasons to study chemistry.

  5. What is Chemistry? • Chemistry is the study of the composition of “matter” – (matter is anything with mass and occupies space), its composition, properties, and the changes it undergoes. • Has a definite affect on everyday life - taste of foods, grades of gasoline, etc. • Living and nonliving things are made of matter.

  6. Chemistry is the study of the composition, structure, and properties of matter and the changes it undergoes – such as burning fuels. C2H5OH+3O2 2 CO2 + 3 H2O + Energy Reactants  Products

  7. 5 Major Areas of Chemistry • Analytical Chemistry- concerned with the composition of substances. • Inorganic Chemistry- primarily deals with substances without carbon • Organic Chemistry- essentially all substances containing carbon • Biochemistry- Chemistry of living things • Physical Chemistry- describes the behavior of chemicals (ex. stretching); involves lots of math! Boundaries not firm – they overlap and interact

  8. - Page 8

  9. What is Chemistry? • Pure chemistry- gathers knowledge for the sake of knowledge • Applied Chemistry- is using chemistry to attain certain goals, in fields like medicine, agriculture, and manufacturing – leads to an application * Optical fibers (SiO2) * Aspirin (C9H8O4) - to relieve pain

  10. Why Study Chemistry? • Everyone and everything around us involves chemistry – explains our world • What in the world isn’t Chemistry? • Helps you make choices; helps make you a better informed citizen • A possible career for your future • Used to attain a specific goal • What did we describe as “pure” and “applied” chemistry?

  11. Why Study Chemistry? • Figure 1.4, page 5 • What benefits do each of the pictures represent in improving our lives? • Give examples in your daily life that involve use of chemistry, and things that do not?

  12. Section 1.2Chemistry Far and Wide • OBJECTIVES: • Identify some areas of research affected by chemistry.

  13. Section 1.2Chemistry Far and Wide • OBJECTIVES: • Describe some examples of research in chemistry.

  14. Section 1.2Chemistry Far and Wide • OBJECTIVES: • Distinguish between macroscopic and microscopic views.

  15. Chemistry Far and Wide • Chemists design materials to fit specific needs – velcro(Patented in 1955) • perfume, steel, ceramics, plastics, rubber, paints, nonstick cooking utensils, polyester fibers • Two different ways to look at the world: macroscopic and microscopic

  16. Chemistry Far and Wide • Energy – we constantly have greater demands • We can conserve it; use wisely • We can try to produce more; oil from soybeans to make biodiesel • fossil fuels, solar, batteries (that store energy – rechargeable?), nuclear (don’t forget pollution!)

  17. Chemistry Far and Wide • Medicine and Biotechnology- • Supply materials doctors use to treat patients – spatial arrangements of protein molecules • Synthesis of vitamin C, penicillin, aspirin (C9H8O4) • alloysfor artery transplants and hipbones • Gene technology -bacteria producing insulin (DNA chemical structure)

  18. Chemistry Far and Wide • Agriculture • Produce the world’s food supply • Use chemistry for better productivity – soil, water, weeds • plant growth hormones • ways to protect crops; insecticides(honeybees) • disease resistant plants

  19. Chemistry Far and Wide • The Environment • both risks and benefits involved in discoveries- which outweights • Pollutants need to be 1) identified and 2) prevented • Lead paint was prohibited in 1978; Leaded gasoline? Drinking water? • carbon dioxide, ozone, global warming

  20. - Pge16 Let’s examine some information from a graph. 88.2% 440,000 After lead was banned in gasoline and public water supply systems, less lead entered the environment.

  21. Section 1.3Thinking Like a Scientist • OBJECTIVES: • Identify the steps in the scientific method.

  22. Section 1.3Thinking Like a Scientist • OBJECTIVES: • Explain why collaboration and communication are important in science.

  23. The Scientific Method • A logical approach to solving problems or answering questions. • Starts with observation- noting and recording information and facts • hypothesis- a proposed explanation for the observation; must be tested by an experiment

  24. Steps in the Scientific Method 1. Observations (uses your senses) a)quantitative involves numbers = 95oF b)qualitative is word description = hot 2. Formulating hypotheses (ideas) - possible explanation for the observation, or “educated” guess - “If [ I do this ], then [ this ] will happen.” 3. Performing experiments (the test) - gathers new information to help decide whether the hypothesis is valid

  25. Steps in the Scientific Method 4. Analysis (What happened ) - what data did you obtain and what does it mean 5. Conclusion (the WHY) • -You have two options for your conclusions: based on your results, either • (1) you CAN REJECT • (2) you SUPPORT the hypothesis. • This is an important point. You can not PROVE the hypothesis with a single experiment

  26. Scientific Method • “controlled” experiment- designed to test the hypothesis • We gather data and observations by doing the experiment • Modify hypothesis - repeat the cycle

  27. Scientific Method • We deal with variables, or factors that can change. Two types: 1) Manipulated variable (or independent variable) is the one that we change 2) Responding variable (or dependent variable) is the one observed during the experiment • For results to be accepted, the experiment needs to always produce the same result

  28. Outcomes over the long term… • Theory (Model) - A set of well-tested hypotheses that give an overall explanation of some natural phenomenon – not able to be proved • Natural Law(or Scientific Law) - The same observation applies to many different systems; summarizes results - an example would be: the Law of Conservation of Mass

  29. Law vs. Theory • A law summarizes what has happened. • A theory (model) is an attempt to explain why it happened – this changes as new information is gathered.

  30. - Page 22 The procedure that is used to test the hypothesis Using your senses to obtain information Hypothesis is a proposed explanation; should be based on previous knowledge; an “educated” guess Tells what happened A well-tested explanation for the observations; cannot be proven due to new discoveries

  31. Collaboration / Communication • When scientists share ideas by collaboration and communication, they increase the likelihood of a successful outcome

  32. Problem Solving in Chemistry • We are faced with problems each day, and not just in chemistry • A solution (answer) needs to be found • Trial and Error may work sometimes? • But, there is a method to problem solving that works better, and these are skills that no one is born knowing – they need to be learned.

  33. Problem Solving in Chemistry • Effective problem solving usually involves two general steps: • Developing a plan • Implementing that plan • The skills you use to solve a word problem in chemistry are NOT different from those techniques used in shopping, cooking, or planning a party.

  34. Solving Numeric Problems • Measurements are an important part of chemistry; thus many of our word problems involve use of mathmatics • Word problems are real life problems, and sometimes more information is presented than needed for a solution • Following skills presented will help you become more successful

  35. Solving Numeric Problems • The three steps we will use for solving a numeric word problem are: • Analyze • Calculate • Evaluate • The following slides tell the meaning of these three steps in detail. Let’s learn how to ACE these numeric word problems!

  36. Solving Numeric Problems • Analyze: this is the starting point • Determine what are the known factors, and write them down on your paper! • Determine what is the unknown. If it is a number, determine the units needed • Plan how to relate these factors- choose an equation; use table or graph • This is the heart of successful problem solving techniques – it is the PLAN

  37. Solving Numeric Problems • Calculate:perform the mathematics • If your plan is correct, this is the easiest step. • Calculator used? Do it correctly! • May involve rearranging an equation algebraically; or, doing some conversion of units to some other units.

  38. Solving Numeric Problems • Evaluate: – the finishing step • Is it reasonable? Make sense? Do an estimate for the answer, and check your calculations. • Need to round off the answer? • Do you need scientific notation? • Do you have the correct units? • Did you answer the question?

  39. Solving Conceptual Problems • Not all word problems in chemistry involve doing calculations • Nonnumeric problems are called conceptual problems – ask you to apply concepts to a new situation • Steps are: • Analyze and 2) Solve • Plan needed to link known to unknown, but no checking units or calculations • Do Conceptual Problem 2.1 on page 46

  40. End of Chapter 1 Introduction to Chemistry

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