- •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
Text 4 micelle
A micelle or micella (plural micelles or micellae, respectively) is an aggregate of surfactant molecules dispersed in a liquid colloid. A typical micelle in aqueous solution forms an aggregate with the hydrophilic "head" regions in contact with surrounding solvent, sequestering the hydrophobic single-tail regions in the micelle centre. This phase is caused by the packing behavior of single-tail lipids in a bilayer. The difficulty filling all the volume of the interior of a bilayer, while accommodating the area per head group forced on the molecule by the hydration of the lipid head group, leads to the formation of the micelle. This type of micelle is known as a normal-phase micelle (oil-in-water micelle). Inverse micelles have the head groups at the centre with the tails extending out (water-in-oil micelle). Micelles are approximately spherical in shape. Other phases, including shapes such as ellipsoids, cylinders, and bilayers, are also possible. The shape and size of a micelle are a function of the molecular geometry of its surfactant molecules and solution conditions such as surfactant concentration, temperature, pH, and ionic strength. The process of forming micelles is known as micellisation and forms part of the phase behaviour of many lipids according to their polymorphism.
The ability of a soapy solution to act as a detergent has been recognized for centuries. However, it is only at the beginning of the twentieth century that the constitution of such solutions was scientifically studied. Pioneering work in this area was carried out by James William McBain at the University of Bristol. As early as 1913, he postulated the existence of “colloidal ions” to explain the good electrolytic conductivity of sodium palmitate solutions. These highly mobile, spontaneously formed clusters came to be called micelles, a term borrowed from biology and popularized by G.S. Hartley in his classic book Paraffin Chain Salts: A Study in Micelle Formation.
Individual surfactant molecules that are in the system but are not part of a micelle are called "monomers". Lipid micelles represent a molecular assembly, in which the individual components are thermodynamically in equilibrium with monomers of the same species in the surrounding medium. In water, the hydrophilic "heads" of surfactant molecules are always in contact with the solvent, regardless of whether the surfactants exist as monomers or as part of a micelle. However, the lipophilic "tails" of surfactant molecules have less contact with water when they are part of a micelle—this being the basis for the energetic drive for micelle formation. In a micelle, the hydrophobic tails of several surfactant molecules assemble into an oil-like core, the most stable form of which having no contact with water. By contrast, surfactant monomers are surrounded by water molecules that create a "cage" of molecules connected by hydrogen bonds. This water cage is similar to a clathrate and has an ice-like crystal structure and can be characterized according to the hydrophobic effect. The extent of lipid solubility is determined by the unfavorable entropy contribution due to the ordering of the water structure according to the hydrophobic effect.
Micelles composed of ionic surfactants have an electrostatic attraction to the ions that surround them in solution, the latter known as counterions. Although the closest counterions partially mask a charged micelle (by up to 90%), the effects of micelle charge affect the structure of the surrounding solvent at appreciable distances from the micelle. Ionic micelles influence many properties of the mixture, including its electrical conductivity. Adding salts to a colloid containing micelles can decrease the strength of electrostatic interactions and lead to the formation of larger ionic micelles. This is more accurately seen from the point of view of an effective charge in hydration of the system.