- •Lead-in
- •II. Read the text and find the answers to the questions above. Text a
- •Introduction into chemistry
- •1. Define if the sentences are true (t) or false (f).
- •2. Find in the text English equivalents to the following Russian words and word- combinations.
- •3. Find in the text the synonyms for the following words.
- •4. What notions do these groups of key words describe?
- •5. Match the words from two columns to make word-combinations. Make up your own sentences with these phrases.
- •6. Match the beginnings and the endings of the sentences.
- •Text b fundamental concepts of chemistry
- •1. Read the text again paying attention to the words in bold. Make up your own sentences with these words.
- •2. Match the words from the box with the pictures.
- •3. Translate the sentences into English without using a dictionary.
- •4. Look at the picture and comment on it from the point of view of chemistry.
- •5. Look through the text and find the main concepts of chemistry. Complete the chart. Give a definition for each concept and compare it with the definitions of your groupmates.
- •6. Read the following word-combinations.
- •Ionic bonds
- •7. Watch the video 'What is an Atom?'. Fill in the gaps in the following sentences.
- •8. Prepare the reports upon one of the following topics:
- •9. Surf the Internet. Find the information about new chemical sub-disciplines which have emerged in recent years. Make presentations. Use some useful expressions from the Appendix 1.
- •I . Lead-in
- •II. Read the text and find the answers to the questions above. Text a
- •Inorganic chemistry
- •Ores and Alloys
- •Chemical Bonding
- •Concept of Acids and Bases
- •Coordination Chemistry
- •Nuclear and Radioactivity
- •1. Define if the sentences are true (t) or false (f).
- •2. Find in the text English equivalents to the following Russian words and word-combinations.
- •3. Match the term on the left with the definition on the right.
- •4 . Match the words from two columns to make word-combinations. Make up your own sentences with these phrases.
- •5. Put the words in the right word order to make sentences.
- •With, Coordination, complexes, the, of, chemistry, deals, study.
- •6. Fill in the gaps using the words and word-combinations given below in the correct form. Translate the sentences.
- •7. Write down the words you associate with the term “inorganic chemistry”. Compare your words with the words of your groupmates.
- •Inorganic chemistry
- •8. Render the essence of each paragraph in one sentence. Use these sentences to present the summary of the text for your groupmates.
- •III. Read the following text. What is the meaning of the words in bold? text b types of inorganic chemical reactions
- •1. Practice in reading chemical formulas and equations in the text (see the rules in Appendix 4).
- •2. Each column contains a category and some terms listed under it. Cross out the term that does not fit in each category.
- •3. Define the type of inorganic chemical reaction.
- •4. Look at the picture and comment on it from the point of view of chemistry.
- •5. Read the following words and word-combinations.
- •Uses of sulphuric acid
- •5. Watch the video 'Sulphuric Acid Production'. Decide if the sentences are true (t) or false (f).
- •6. Explain the following words and word-combinations in English.
- •7. Make up the sentences of your own with the words in bold. Provide your own examples of combustion reactions and precipitation reactions.
- •8. Ask different types of questions to the text and answer your groupmates' questions.
- •9 . Prepare a report upon one of the following topics:
- •Lead-in
- •II. Read the text and find the answers to the questions above. Text a analytical chemistry
- •1. Define if the sentences are true (t) or false (f).
- •2. Find in the text English equivalents to the following Russian words and word-combinations.
- •3. Fill in the gaps using the word-combinations given below. Translate the sentences.
- •4. Match the term on the left with the definition on the right.
- •5 . Match the words from two columns to make word-combinations. Make up your own sentences with these phrases.
- •6. Put the words in the right order to make questions. Then ask the questions to your groupmates.
- •7. Write down the words you associate with the term “analytical chemistry”. Compare your words with the words of your groupmates.
- •Analytical chemistry
- •8. Make up the plan of the text and summarize information.
- •III. Read the following text. What is the meaning of the words in bold? text b titration
- •1. Match the following terms with their definitions:
- •2. Translate the sentences into English without using a dictionary.
- •3. Read the following text about acid-base titration and unscramble the letters in the brackets to find the correct word. Translate the text.
- •4. Rewrite the sentence so that it contains the word in capitals.
- •5. Look at the picture and comment on it from the point of view of chemistry.
- •6. Ask different types of questions to the text “Titration” and answer your groupmates' questions.
- •7. Look through the text b. Make up the sentences of your own with the words in bold.
- •8. Read the text. Which pH indicator is the most acidic? Which one is the most basic? Make up the graph showing the efficient pH range of these indicators. PH indicators
- •Universal pH Indicator
- •Natural pH Indicator
- •Unit 4. Organic chemistry
- •I. Lead-in.
- •II. Read the text and find the answers to the questions above. Text a organic chemistry
- •1. Define if the sentences are true (t) or false (f).
- •2. Find in the text English equivalents to the following Russian words and word-combinations.
- •3. Fill in the gaps in the following sentences using the text above. Translate the sentences.
- •4. What notions do these groups of key words describe?
- •5. Make up the questions using the words given and 3 questions of your own. Present them in the form of a dialogue with your partner.
- •6. Read the 10 facts about carbon and match the two parts of each statement. What is the meaning of the words in bold?
- •7 . Make a short report about the importance of carbon in organic chemistry using the information above. If necessary, use the key word-combinations:
- •Organic chemistry
- •III. Read the following text. What is the meaning of the words and word-combinations in bold? text b classification of organic compounds
- •1. Match the words from the box with the pictures.
- •2. Translate the sentences into English without using a dictionary.
- •3. What are the scientific contributions made by the following organic chemists? Tell your partner about them. If necessary, use the Internet.
- •4. Look at the picture and comment on it from the point of view of chemistry. Say what classes these organic compounds belong to.
- •5. Read the following text and choose the correct word among suggested to fill in the gaps.
- •3 Accidental organic chemistry discoveries
- •Penicillin
- •Saccharin
- •Mauveine
- •6. Watch the video ‘Are artificial sweeteners really safe?’ Decide if the statements are true (t) or false (f).
- •I. Lead-in
- •II. Read the text and find the answers to the questions above. Text a physical chemistry
- •1. Define if the sentences are true (t) or false (f).
- •2. Find in the text English equivalents to the following Russian words and word-combinations.
- •3. Fill in the gaps in the following sentences using the text above. Translate the sentences.
- •4. Find in the text the synonyms for the following words.
- •5. What notions do these groups of key words describe?
- •6. Read the following text about thermodynamics and unscramble the letters in the brackets to find the correct word. Translate the text.
- •7. Noun, verb, adjective, adverb, participle or preposition? What are the underlined words in each sentence?
- •8. Read the following quotations. What do they mean? Discuss them with your groupmates. Express agreement or disagreement.
- •Physical chemistry
- •III. Read the following text. What is the meaning of the words and word-combinations in bold? text b colloids
- •Help the student to solve the problems concerning colloids.
- •2. Find ten words in the wordsearch from the text b. (→, ↓)
- •3. Match the words from the box with the pictures.
- •4. Translate the sentences into English without using a dictionary.
- •5. Look at the picture and comment on it from the point of view of chemistry.
- •6. Read the following words and word-combinations.
- •How does soap work?
- •Active vocabulary unit 1
- •Translation practice text 1 chemistry around us
- •Text 2 enzymes
- •Vitamins
- •Text 4 micelle
- •Text 5 environmental chemistry
- •Text 6 cell phone chemistry
- •Text 7 alcohols
- •Text 8 keto-enol tautomerism
- •Text 9 coordination chemistry
- •Text 10 liquid-liquid extraction
- •Appendices
- •Chemical elements
- •How to read chemical formulas
- •How to read chemical equations
- •Irregular verbs
- •Useful expressions for making a presentation
- •References
Vitamins
A vitamin is an organic compound and a vital nutrient that an organism requires in limited amounts. An organic chemical compound (or related set of compounds) is called a vitamin when the organism cannot synthesize the compound in sufficient quantities, and must be obtained through the diet; thus, the term "vitamin" is conditional upon the circumstances and the particular organism. For example, ascorbic acid (vitamin C) is a vitamin for humans, but not for most other animal organisms. Supplementation is important for the treatment of certain health problems, but there is little evidence of nutritional benefit when used by otherwise healthy people.
By convention, the term vitamin includes neither other essential nutrients, such as dietary minerals, essential fatty acids, or essential amino acids (which are needed in greater amounts than vitamins) nor the great number of other nutrients that promote health, and are required less often to maintain the health of the organism. Thirteen vitamins are universally recognized at present. Vitamins are classified by their biological and chemical activity, not their structure. Thus, each "vitamin" refers to a number of vitamer compounds that all show the biological activity associated with a particular vitamin. Such a set of chemicals is grouped under an alphabetized vitamin "generic descriptor" title, such as "vitamin A", which includes the compounds retinal, retinol, and four known carotenoids. Vitamers by definition are convertible to the active form of the vitamin in the body, and are sometimes inter-convertible to one another, as well.
Vitamins have diverse biochemical functions. Some, such as vitamin D, have hormone-like functions as regulators of mineral metabolism, or regulators of cell and tissue growth and differentiation (such as some forms of vitamin A). Others function as antioxidants (e.g., vitamin E and sometimes vitamin C). The largest number of vitamins, the B complex vitamins, function as precursors for enzyme cofactors that help enzymes in their work as catalysts in metabolism. In this role, vitamins may be tightly bound to enzymes as part of prosthetic groups: For example, biotin is part of enzymes involved in making fatty acids. They may also be less tightly bound to enzyme catalysts as coenzymes, detachable molecules that function to carry chemical groups or electrons between molecules. For example, folic acid may carry methyl, formyl, and methylene groups in the cell. Although these roles in assisting enzyme-substrate reactions are vitamins' best-known function, the other vitamin functions are equally important.
Until the mid-1930s, when the first commercial yeast-extract vitamin B complex and semi-synthetic vitamin C supplement tablets were sold, vitamins were obtained solely through food intake, and changes in diet (which, for example, could occur during a particular growing season) usually greatly altered the types and amounts of vitamins ingested. However, vitamins have been produced as commodity chemicals and made widely available as inexpensive semisynthetic and synthetic-source multivitamin dietary and food supplements and additives, since the middle of the 20th century.
Vitamins are classified as either water-soluble or fat-soluble. In humans there are 13 vitamins: 4 fat-soluble (A, D, E, and K) and 9 water-soluble (8 B vitamins and vitamin C). Water-soluble vitamins dissolve easily in water and, in general, are readily excreted from the body, to the degree that urinary output is a strong predictor of vitamin consumption. Because they are not as readily stored, more consistent intake is important. Many types of water-soluble vitamins are synthesized by bacteria. Fat-soluble vitamins are absorbed through the intestinal tract with the help of lipids (fats). Because they are more likely to accumulate in the body, they are more likely to lead to hypervitaminosis than are water-soluble vitamins. Fat-soluble vitamin regulation is of particular significance in cystic fibrosis.
The term vitamin was derived from "vitamine," a compound word coined in 1912 by the Polish biochemist Kazimierz Funk when working at the Lister Institute of Preventive Medicine. The name is from vital and amine, meaning amine of life, because it was suggested in 1912 that the organic micronutrient food factors that prevent beriberi and perhaps other similar dietary-deficiency diseases might be chemical amines. This was true of thiamine, but after it was found that other such micronutrients were not amines the word was shortened to vitamin in English.