- •Mass Media
- •Vocabulary:
- •Grammar: Infinitive
- •Infinitives /Form
- •5. Remember the use and forms of the Infinitive.
- •What are economic, social and cultural rights?
- •Vocabulary
- •4. Open the brackets and use the Complex Object.
- •5. Open the brackets and use the Complex Subject.
- •Vocabulary
- •3. Give Russian equivalents:
- •4. Translate these sentences using your vocabulary.
- •5. Write all your associations with the words:
- •6. Answer the following questions according the ideas of the text.
- •7. Say if these statements true or false according to the text. Correct if you find any mistakes.
- •8. Make a plan of this text. Add key words in it if necessary.
- •9. Retell this text using your plan.
- •10. Use colored pencils and make a poster. Tell about the process of biosynthesis. Try to do it simple and teachable.
- •11. Fill in the blanks with the prepositions of time in, on, at where necessary.
- •12. Fill in the blanks with prepositions of place at, in, on.
- •Grammar: Gerund and Gerundial Constructions
- •13. Choose the correct form (infinitive with or without to or gerund).
- •14. Do you know what cytology is and what it studies? Is the kernel of a cell a subject of cytology? Why is knowledge of cytology necessary? Where can this knowledge be applied?
- •15. Read this text and translate it. Cytology as a science.
- •16. Give English equivalent to the following phrases.
- •18. Answer the question according to the text.
- •19. Put the words in the right order and write down the sentences:
- •20. Create the project “Fantastic cells”
- •Vocabulary
- •2. Translate the sentences into English.
- •3. Use your English-English dictionary and write down the definitions to the following words:
- •4. Read the text attentively again and say which statements are true to the fact or false.
- •5. Speak on the new facts you found in the text.
- •9. Choose the correct form (infinitive with or without to or gerund).
- •10. A) Choose the correct option in each sentence.
- •11. How many areas of physiology do you know? Do you study physiology? Read the text. Physiology of plants and animals
- •13. Answer the following questions according to the ideas of the text.
- •18. Write your own cv. You can imagine yourself a well-known scientist or write the cv from your student’s position as well.
- •Vocabulary
- •2. Fill in the gaps in these sentences:
- •3. Make sentences in English with words stated below:
- •9. Study additional notions concerning biochemistry and explain them.
- •10. Translate the sentences with the words from vocabulary after the text.
- •11. Study the Participle. Find the difference between Participles I and II. Open the brackets and fill in with the proper participle.
- •12. Translate into English using participles where possible.
- •13. Read the text and title it. Biochemical pathways and processes
- •14. Make 5 questions according the text.
- •Vocabulary
- •2. Try to explain the following terms:
- •3. Translate the sentences with the words from your vocabulary.
- •4. Continue the associative chain:
- •10. Rewrite the sentences with participle clauses.
- •11. Read the text and translate it. Three branches of biophysics.
- •12. Circle any additional unknown words/phrases in the article. In pairs/groups, use your dictionaries to understand the meanings. Write definitions to 3 of them.
- •13. Remember how the fragments were used, and complete the sentence from the article above.
- •14. Work with a partner to summarize the article in your own words.
- •Vocabulary
- •3. Translate the sentences with the words from vocabulary after the text.
- •4. Fill in the gaps in this sentences:
- •4. Write out the sentences expressing the main ideas of each logical part of the text.
- •10. Find the appropriate Russian equivalent to English term.
- •11. There are many laboratory devices in the biochemistry laboratory. Try to match the definition of the equipment with the picture:
- •Vocabulary
- •2. Translate the following sentences from Russian into English using the words from vocabulary.
- •3. Give the definitions to at least three of the following terms:
- •4. Fill in the gaps in these sentences:
- •5. Answer the questions about this text.
- •6. Speak on the new facts you found in the text.
- •7. Do you agree with the following statements?
- •8. Make a plan of this text. Add key words in it if necessary.
- •9. Retell this text using your plan.
- •10. Choose the correct conjunction.
- •11. Choose the appropriate coordinating or correlative conjunctions
- •12. Give the definitions to at least three of the following words:
- •13. Write out the sentences expressing the main ideas of each logical part of the text.
- •14. Check your knowledge about the immune system? Do you know the answers to these questions?
- •15. Speak on the new facts you found. What wondered you or what information was new for you? Can you add some other information about the history of immunology or some interesting immunological facts?
- •16. Read the text. A useful vitamin
- •17. Study this text and express it in your words not using any plan.
- •Vocabulary
- •2. Change the Russian words into the English using the correct forms. Use proper articles if necessary.
- •3. Translate the following sentences paying attention to the words in italic.
- •4. Answer the following questions according to the sense of the text.
- •5. Find the appropriate definitions to the following words.
- •6. Read the text again and express the idea of each paragraph in questions..
- •7. Retell the texts from the point of view of:
- •8. Predict whether the following statements are true or false:
- •9. Fill in the blanks with the prepositions of time in, on, at where necessary.
- •10. Fill in the blanks with prepositions of place at, in, on.
- •11. Fill in the blanks with the appropriate prepositions where necessary.
- •12. Read the text and entitle it.
- •13. Pairs/Groups write down questions based on
- •Vocabulary
- •2. Translate these sentences.
- •3. Fill in the gaps in these sentences:
- •4. Give the full answers to these questions:
- •10. Spend one minute writing down all of the different words you associate with the world ‘microbiology’. Share your words with your partner/group and
- •11. Look at the words below. Try to recall exactly how these were used in the text:
- •14. Read the text about Antonie van Leeuwenhoek (Антони ванн Левенгук) and other pioneers of microbiology, translate and title it and add the facts you know about these famous scientists.
- •15. Speak on the facts you found in the text. What information was new for you?
- •Vocabulary
- •2. Give Russian equivalents for the following words:
- •3. Translate the following sentences from Russian into English using the words from vocabulary.
- •4. Fill in the gaps in these sentences:
- •5. Remember how the fragments were used, and complete the sentence from today's article.
- •6. Find the appropriate definitions to the following words:
- •7. Make 10 questions covering the gist of the text.
- •13. Make 15 sentences covering the whole text.
- •Biotechnology.General knowledge
- •1. Read this text and translate it. What is biotechnology?
- •Vocabulary
- •2. Translate the sentences into English using the words you learned.
- •4. Write out the sentences expressing the main ideas of each logical part of the text.
- •5. Write a summary of the text in your own words making use of plan and the sentences you’ve written out.
- •6. Orally enlarge this summary and retell the text.
- •7. Test your knowledge in biotechnology. Choose the correct answer.
- •12. Read this text and translate it. Medical biotechnology
- •13. Give Russian equivalents for the following words:
- •14. Translate the sentences into English.
- •Vocabulary
- •2. Give Russian equivalents for the following words:
- •3. Put the words in the right order and write down the sentences:
- •4. Complete the sentences using the words from the box in the correct form.
- •5. Use your English-English dictionary and write down the definitions to the following words:
- •6. Translate the following sentences paying attention to the words in italics.
- •7. Answer to the questions according to the sense of the text.
- •8. Make a plan of this text. Add it with the keywords.
- •13. Read the text again and answer the following questions:
- •14. Find the appropriate definitions to the following words:
- •19. Read the text and translate. Gm Food
- •20. Study this text and enlarge it with your knowledge about genetically modified food.
- •Vocabulary
- •2. Translate into English.
- •3. Give definitions of the following notions:
- •4. Answer the questions according to the text.
- •5. Read the text again and entitle it.
- •6. Be ready to speak about stem cells. Use this text and enlarge it with your new information.
- •11. Fill in the blank with the correct word. Choose them out of the words in the box:
- •13. Read the text and underline the words you found in the exercises before.
- •16. Answer whether the sentence is true or false. If false, correct the sentence.
- •18. Work with a partner to summarize the article above in your own words in 3-5 sentences.
- •20. Role-play: Assume the following roles and talk about the following:
- •21. Talk about the following questions in pairs/groups. Make a report or write an essay on these questions.
- •Unit 15 Cloning
- •1. Read and translate the text about cloning. Cloning and concerns about it
- •Vocabulary
- •2. Translate into English.
- •3. Fill in the gaps in these sentences according to the text you`ve read:
- •4. A) Make sentences in Russian with the words from vocabulary and give them to your partner to translate into English.
- •5. A) Make 10 questions covering the gist of the text.
- •6. Read interesting facts about cloning, discuss them and find your own.
- •7. Talk with your partner(s) about cloning the people / animals in the table. What are the pros and cons of each? Change partners and share your ideas.
- •8. Translate sentences and pay attention to the underlined adverbs in these sentences.
- •9. Put in the correct adverb.
- •10. Read the following text and translate it. Human cloning
- •11. Write the gist of the text in about 10 sentences. Then enlarge it with your own information concerning cloning.
- •12. Talk about the following questions in pairs/groups. Remember to support your answers!
- •13. Write a magazine article about two people - one is the clone of the other. Include imaginary interviews with them. Optional activity: take an interview from two (three) clones.
- •14. Translate an abstract.
- •17. You have a clone. Your clone is 13 years old. Write your diary entry for one day you spent with him/her. Include the conversations you had and the advice you gave him/her.
- •18. Do we have a right to clone dead people? What if they didn’t want to be cloned? Make a report/ essay on this topic.
- •19. Study the example of the official letter. Make a conclusion about the rules of letter writing.
- •20. Write your own formal (official) letter.
12. Circle any additional unknown words/phrases in the article. In pairs/groups, use your dictionaries to understand the meanings. Write definitions to 3 of them.
13. Remember how the fragments were used, and complete the sentence from the article above.
1) Medical Biophysics studies physics to …
2) Medical Biophysics relies on broad interdisciplinary knowledge between…
3) Some important areas of research in medical biophysicsare…
4) Molecular biophysics is a rapidly evolving interdisciplinary area of research that …
5) Biophysical chemistry is a relatively new branch of chemistry that …
6) Biophysical chemists employ various techniques used in physical chemistry to …
7) Biophysical chemists study…
8) Enzyme action can be explained in terms of …
9) Similarly the structure and function of the biomembranes may be understood through …
14. Work with a partner to summarize the article in your own words.
15. Write an essay on the topic “Prospects of biophysics”.
16. With the group of your colleagues make a presentation about the following selected topics in biophysics:
• Biophysical mechanisms
• Biophysical techniques
• Molecular structure and behavior
UNIT 7
Physicochemical methods of analysis
What are the physicochemical methods of analysis? What kinds of physicochemical methods do you know? What is the basis of physicochemical methods of analysis?
1. Read this text and translate it.
Physicochemical Methods of Analysis: What Are These?
It seems that this term can be met only in Russian. In the Englishlanguage literature, they usually speak and write about instrumental methods of analysis. The name instrumental is evidently not ideal; analytical balances or titrimeters used in classical chemical methods also belong to instruments.
Physicochemical methods of analysis have wider application. Without them it is hard to control and manage production processes and research. It should be noted that physicochemical methods of analysis solve the problems of chemical control and analysis; they constitute to one of the parts of analytical chemistry. The essence of the physical and chemical methods of analysis is to study relations between structure and properties of systems. For the analysis of substances chemical reactions are widely used. They are accompanied by changes in the physical properties of the analyzed system, for example, the color intensity of fluorescence, etc. So physicochemical methods of analysis is a field of analytical chemistry that investigates analyses using scientific instruments. There are several types of instrumental analyses.
Spectroscopy measures the interaction of the molecules with electromagnetic radiation. Spectroscopy consists of many different applications such as atomic absorption spectroscopy, atomic emission spectroscopy, ultraviolet-visible spectroscopy, x-ray fluorescence spectroscopy, infrared spectroscopy, Raman spectroscopy, nuclear magnetic resonance spectroscopy, photoemission spectroscopy and so on.
Mass spectrometry measures mass-to-charge ratio of molecules using electric and magnetic fields. There are several ionization methods: electron ionization, chemical ionization, electrospray, fast atom bombardment, matrix-assisted laser desorption/ ionization, and others.
Crystallography is a technique that characterizes the chemical structure of materials at the atomic level by analyzing the diffraction patterns of electromagnetic radiation or particles that have been deflected by atoms in the material. X-rays are most commonly used. From the raw data the relative placement of at oms in space may be determined.
Electroanalytical methods measure the electric potential in volts and/or the electric current in amps in an electrochemical cell containing the analyte. These methods can be categorized according to which aspects of the cell are controlled and which are measured. The three main categories are potentiometry (the difference in electrode potentials is measured), coulometry (the cell's current is measured over time), and voltammetry (the cell's current is measured while actively altering the cell's potential).
Calorimetry and thermogravimetric analysis measure the interaction of a material and heat.
Separation processes are used to decrease the complexity of material mixtures. Chromatography and electrophoresis are representative of this field.
Microscopy. The visualization of single molecules, single biological cells, biological tissues and nanomaterials is very important and attractive approach in analytical science.
Also, hybridization with other traditional analytical tools is revolutionizing analytical science. Microscopy can be categorized into three different fields: optical microscopy, electron microscopy, and scanning probe microscopy. Recently, this field is rapidly progressing because of the rapid development of the computer and camera industries. Combinations of the above techniques produce a "hybrid" or "hyphenated" technique. Several examples are in popular use today and new hybrid techniques are under development, for example, gas chromatography-mass spectrometry, gas chromatography-infrared spectroscopy, liquid chromatography- mass spectrometry and so on.
A general method for analysis of concentration involves the creation of a calibration curve. This allows for determination of the amount of a chemical in a material by comparing the results of unknown sample to those of a series known standards. If the concentration of element or compound in a sample is too high for the detection range of the technique, it can simply be diluted in a pure solvent. If the amount in the sample is below an instrument's range of measurement, the method of addition can be used. In this method a known quantity of the element or compound under study is added, and the difference between the concentration added, and the concentration observed is the amount actually in the sample.