The Power Of Mathematics Workbook With Notes Answers

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Methods of teaching mathematics

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Methods of teaching mathematics

1. "Some people talk in their sleep Lecturers talk while other people sleep" - Albert Camus. V. Suresh Kumar Assistant Professor Of Mathematics Rajalakshmi College Of Education Thoothukudi
2. What is method ? The word "Method" has been derived from Latin which word means, "Mode" or "Way". What is Method of Teaching? "The process of interpreting the world of knowledge to pupils mind is called the method of teaching"
3. World of Method of World of the Knowledge Teaching Student's Knowledge
4. Method of Teaching should be Simple Complex. Known Unknown. Definite Indefinite. Concrete Abstract. Direct Indirect. Empirical Rational
5. Principal of learning by doing. Principal of individual differences. Principal of motivation. Principal of correlation. Principal of linking with previous knowledge. Principle of distribution. Principle of repetition. Principle of certain objectives. Principle of evaluation.
6. Methods of Teaching Mathematics Child – Centered Methods Teacher – Centered Method
7. The child occupies a central position. Teaching – learning process is geared to the needs, interests, capabilities & requirements of the child. based on psychological principles. To develop abilities, skills & discovery attitude amongst the students. Teacher is passive. Includes, project, laboratory, problem – solving, heuristic, discussion method etc
8. Teacher occupies the central position. Focus on telling, memorization & recalling information. The children are passive. Include lecture, historical & lecture cum – demonstration method
9. Lecture Method. Demonstration Method. Lecture Cum – Demonstration Method. Inductive – Deductive Method. Analytic – Synthetic Method. Laboratory Method. Heuristic Method. Project Method. Problem – Solving Method.
10. The world analytic is derived from the world "analysis" which means "breaking up" or "separate things that are together" Analysis starts with "what we have to find out & traces the connection between it & data". Proceed from "unknown to known". From conclusion to hypothesis. In this method we start from "what is to be determined" or "what is to be proved". It is also called "method of discovery"
11. To prove any theorem. When construction work is to be done in the geometry. To find the solution for arithmetic problem.
12. Example : If a/b = c/d, then P.T ac +4b2 / bc = c2 + 4bd/dc. Solution To prove this using analytic method, begin from the unknown The unknown is ac + 4b2/bc = c2+4bd/dc. => ac+ 4b2/b = c2+4bd/d. => d(ac+ 4b2 ) = b(c2+4bd). => dac+ 4db2 = bc2+4b2d. => dac = bc2. => da = bc. => a/b = c/d. This type of the solution of the problem can be easily obtained by analysis.
13. Based on psychological principles. Explanatory procedure. Creates creativity & originality in the child. Develops analytic & reasoning power. Develops scientific attitude. Analysis is the process of thinking. Develops self – confidence & logical abilities in the child. Knowledge gained by this method is more solid & durable. The child is always curious for attaining new knowledge. Formative method & based on inductive reasoning.
14. This is a lengthy method. It is not possible to acquire speed & efficiency. Every teacher cannot use this method successfully. Whole syllabus cannot completed in certain period. Analytic method is possible only when we have knowledge of known facts & unknown conclusion
15. Reverse of the analytic method. Synthesis means " to join separate parts". We proceed "from known to unknown" or "start with hypothesis & end with conclusion". Method of formulation, recording & presenting concisely the discovered solution omitting the trial & errors. Synthesis leads to rote memory & doing by mere. Synthesis without analysis is dogmatic, but synthesis is offer analysis has a place in the class - room
16. Example : If a/b = c/d, then P.T ac +4b2 / bc = c2 + 4bd/dc. Solution We known that a/b = c/d. In this method we start from known & proceed to unknown. Adding 4b/c on both sides. a/b + 4b/c = c/d + 4b/c. => ac +4b2 / bc = c2 + 4bd/dc. Which was to be proved.
17. No logic or reason is gives here for why 4b/c is added on both sides. Analysis is the process of discovering the solution & synthesis is the method of setting out the solution in a concise from so as to convince yourself & others.
18. It is a short & quick method. It glorifies the memory of the child. It formulates, records & presents concisely the discovered facts. It omits the trials & errors like in analysis. The solution in a concise form. It is informative method. It takes less time.
19. No scope of discovery. It leads to rote memory. It create many doubts in the mind of the child. It does not give full satisfaction to the child. No opportunity for developing thinking, reasoning & other mental abilities.
20. S.N Analytic Synthetic 1. Unknown to known Known to unknown conclusion to hypothesis Hypothesis to conclusion 2. Based on inductive Based on deductive reasoning reasoning. 3. Based upon heuristic Not based on heuristic approach approach. 4. It is laborious & very It is short & quick lengthily method method. 5. Development of No development of self-confidence & self-confidence & Self reliance. Self reliance.
21. S.N Analytic Synthetic 6. Development of Not developments of intellectual abilities intellectual abilities. 7. Psychological in nature Unpsychological in nature. 8. Approach is scientific Approach is unscientific in nature. in nature. 9. It is a formative method It is an informative method. 10. Develops originality & More stress on memory creativity with reasoning of the child without reasoning. 11. Leads to discovery of Not leads to discovery of something new something new. 12. Proof can be easily Once forgotten proof cannot recollected if forgotten be recollected.
22. To make mathematics more interesting & meaningful. Laboratory method is used in teaching of mathematics. Students get the opportunity to acquaint themselves with the facts through direct experiences individually.
23. Pupils carryout the experiment themselves in the laboratory & gain knowledge through direct experiences. Teacher observes the students working from time to time & guide them by giving instructions whenever needed. Develops creative & heuristic attitude amongst them. This method is more useful & scientific. The success & effectiveness of experiments in laboratory depend upon the ability, capacity & intelligence of both teacher & student.
24. "Sum of three angles of a triangle is 180" Solution: how we can prove the problem by laboratory. Objective : To prove that Sum of three angles of a triangle is equal to two right angles or 180. Apparatus: cardboard, sheet, pencil, scale, triangle & other necessary equipments.
25. Procedure: In the laboratory pupils will be given one cardboard sheet each & then they are told how to draw (make) triangles of different size on it. After drawing the triangles they cut this separately with the help of scissors. Observation: Students will measure the angles of the triangles drawn & write these in a tabular form.
26. Fig No Measure of Different Angles Total A B C A + B + C 1. 90 60 30 180 2. 120 30 30 180 3. 60 60 60 180
27. After measuring the angles of different triangles in the form of cardboard sheet. We calculate their sum. A C C 30 60 30 B 90 60 C A 120 30 B 60 60 Fig – 1 Fig – 2 Fig – 3
28. 1. In fig – 1 A = 90 , B = 60, C = 30 A + B + C = 90 + 60 + 30 = 180. 2. In fig – 2 A = 120, B = 30, C = 30 A + B+ C = 120 + 30 + 30 = 180. 3. In fig – 3 A = 60, B = 60, C = 60 A + B+ C = 60 + 60 + 60 = 180. In this way the students generalize the result & understand that the measure of two angles is given, the third angle can be measured.
29. Based on psychological principle "learning by doing". Acquired knowledge is more solid& durable. Mathematics as a practical subject. Developing the habit of discovery & self – study. Develops scientific attitude. Develop positive attitude towards mathematics. Developing problem – solving. Developing self – confidence. Learn the use of different equipments.
30. Financial constraints – for many school. Used for a small class only. Takes more time to teach. Requires laboratory equipped with different apparatus. Not fit for lower classes. Particular topic can be taught by using laboratory method. Slow method.
31. Experiments related to weight & measurement. Experiments related to speed, time & distance, etc. To prepare a table of square roots & cube roots of numbers. To calculate area, volume & surface area of different geometrical figures or shapes. To represent different mathematical number in figure.
32. The word heuristic is believed to be originated from Greek word "Heurisco" which means "I find out". The profounder was Prof. Hennery Edward Armstrong. Students work like a researcher & solve the problems. Developed the scientific & Mathematical attitude.
33. The population of a city is 50,000 per year then find out the population of the city after 2 years. Solution: Teacher will tell the students to repeat this question many times and will tell them to find the solution with the help of suitable research, questions and he will encourage them for finding correct solution. The question asked by the teacher & expected answers given by the students are listed in the following table.
34. Question asked by Expected answer given Teacher by Students. 1. What has to be calculated Population of city after in the given question 2 year. 2. How can we find out this? First we find population after one year. 3. What is percentage increase 4% increase per year. in population every year. 4. How can we find population Students can find at the end of first year that increase in population at the end of first year = 50000 4/100. = 2000
35. 5. In this way what Students can tell after will be the total solving that population at population at the the end of first year end of first year 50000 + 2000 = 52000. 6. Population increase Students tell that population for second year can increase for second year be calculated on can be calculated on which figure? 52000. 7. How can we calculate Students can solve by their this increase. efforts. Population increase at the end of second year 52000 4/100 = 2080
36. 8. Now how to calculate students will be able to the population at the understand that end of second year? population of the two years will be 52000 + 2080 = 54080. The books should be written on heuristic lines.
37. Psychological method. Develops self – confidence , self – reliance & scientific attitude. Develops ability of observation & spirit of enquiry to solve the problems. Contemplation & awakening increase in the children. The knowledge obtained by this method is more stable. Based on the principle of activity. Develop the mental & thinking powers.
38. It is not suitable for lower classes. It is a very slow method. It is very expensive method. It is very lengthy method. Lack of textbooks written on heuristic approach. Formational method rather than informational.
39. Advocated by Kilpatrick, an American educationist. Based on pragmatic philosophy. It involves a variety of activities. Students work co – operatively. This method consist chiefly of building a comprehensive unit around an activity which may be carried on in the school or outside.
40. Generally Project Individual Projects Group Project According to Kilpatrick: Project Creative or Constructive Artistic Drill projects projects Projects Problematic projects
41. Creating the situation Proposing & choosing the project Planning the project Execution of the project Evaluation of the project Recording of the project.
42. Based on various psychological laws & principles. The children remain active throughout the execution of the project. Based on principle of activity, reality, effect & learning by doing etc. Develops co-operative feeling & group – interaction. The gained knowledge becomes solid & durable. It is democratic & scientific in nature. Develops discovery attitude.
43. It takes more time. It is very difficult to complete the whole syllabus by project – method. It is not economical. Textbooks & written learning material are not available. There is no provision for drill & practice for skills required in mathematics.
44. Teacher should provide democratic atmosphere in the classroom. Teacher should be active & careful all the time to observe the progress of the project. Teacher should work as a friend, guide & working partner. Teacher should have thorough knowledge & experience.
45. Execution of school bank. Study of school budget. Running of book – bank. Execution of hostel mess. Collection & study of the currency of different countries etc.
46. The child is curious by nature. Teacher teach the pupils how to think these techniques to a vast number of varied problematic situation. Life is full of problem, successful man equipped with adequate knowledge & reasoning power to tackle these problem. It may be a purely mental difficulty or it may be physical & involve the manipulation of data.
47. "Problem solving is a set of events in which human being was rules to achieve some goals". - Gagne. "Problem solving involves concept formation & discovery learning" - Ausubel.
48. Meaningful, interesting & practical. It should be well defined. It should have some educational value. Problem related with the daily life of the child. It should be challengeable. Related with previous knowledge. Develop mathematical skill. Develop scientific attitude amongst the children
49. Selection & formation of problem. Presentation of the problem. Formulation of hypothesis. Collection of relevant data & information. Analysis & organization of data. Drawing conclusions. Testing of conclusions.
50. Define union of two sets. If A ={2,3,5}, B ={ 3,5,6}, C = {4,6,8,9} P.T AU(BUC) = (AUB)C. Solution: Step :1 After selecting & understanding the problem the child will be to defined the Problem. The union of two sets A & B is the set which contains all the members of set A & all the members of set B. AUB ={X: X € A or X € B}. The common elements are taken only once in the union of two sets.
51. Step : 2 Analyze the given problem that how the problem can be solved? Step : 3 Able to make hypothesis. 1. BUC. 2. AU (BUC). Similarly (AUB)UC.
52. Step :4 On the basis of given data, the child able to solve the problem. A = { 2,3,5} B = { 3,5,6} & C = {4,6,8,9} BUC = {3,5,6} U{4,6,8,9}. = {3,4,5,6,8,9} AU(BUC) = {2,3,5} U{3,4,5,6,8,9}. = {2,3,4,5,6,8,9}. Similarly A U B = {2,3,5} U {3, 5, 6}. (A U B) U C = {2,3,5,6} U { 4,6,8,9}. = {2,3,4,5,6,8,9}.
53. Step : 5 Analyze the result on the basis of given data & verify the hypothesis whether (A U B) U C is equal to A U( B U C) or not. Step : 6 After verifying the hypothesis, the child will be able to conclude that (A U B) U C = A U (B U C). Thus the child generalizes the results & apply his knowledge in new situation.
54. This method is psychological & scientific in nature. Helps in developing good study habits & reasoning powers. Helps to improve & apply knowledge &experiences. Stimulates thinking of the child. Learns how to act in new situation. Helps in maintaining discipline in the class. Teachers becomes familiar with his pupils
55. Not suitable for lower classes. Lack of suitable books & references. It is not economical. Wastage of time & energy. Teacher find it difficult to cover the prescribed syllabus. Talented teachers are required.
56. Based on induction. Induction means "proving a universal truth or theorem by showing that if it is true in any particular case". The rules & formula are established after extensive study of experiences , experiments & examples. Particular to general.
57. Presentation of specific examples. Observation. Generalization. Testing & verification.
58. Problem: Establishing a formula for solving simple interest problem First steps: The teacher will present many examples related to simple interest before the students & will solve them using unitary method with the help of which the formula for calculating simple interest can be established.
59. Find out S.I of Rs 700 at 8% per annum for 3 years. Solution: Unitary Method: S.I of Rs 100 for 1 year = Rs 8. S.I of Rs 1 for 1 year = Rs 8/100. S.I of Rs 700 for 1 year = Rs (8/100 700). S.I of Rs 700 for 3 year = Rs (8/100 700 3). = Rs (8 7 3). = Rs 168. Similarly ,A number of examples of this type can be presented in classroom.
60. Step : 2 Students will observe examples with the help of the teacher. Teacher: What is S.I for 3 year in Example. S.I = Rs ( 8/100 700 3). = Rs 168. Similarly by solving other more problem & by observing the process of finding out the interest, the students can arrive at a law or formula.
61. After through observation of examples, children will be able to establish the formula of S.I. Teacher make the following discussion. Q1 : What is 8 in the given examples?. Ans : 8 is the rate of interest. Q2 : What is 700 in the given examples? Ans : 700 is the principal. Q3 : what is 3 in the given examples? Ans : 3 is years or time.
62. S.I = rate/100 principle time. or S.I = rate principle time/100. S.I = PRT/100. Fourth step : Verify the derived formula by solving other problems based on S.I
63. It is a scientific method. Developed critical observation & logical power of children. It is a psychological method. Guide the child to do the work himself. Helps to establish many laws, relations, formulae & New principles of mathematics. Suitable for lower classes.
64. Very slow process. It needs sharp mind, proper planning & enough. Only an experienced & able teacher can use this method. Ability, capacity of problem solving cannot be developed. Results drawn by this method are not always true.
65. Opposite to inductive method. Deductive logic is used. Used in algebra, geometry & trigonometry. Impossible to verify each law & formula practically. Help is taken from assumptions, postulates & axioms of mathematics. Based on deduction. "Abstract to Concrete". "General to Particular". "From General rule to Example"
66. If length & breadth of a rectangle is 6m & 4m respectively, then find out the area of rectangle. Solution: Children can solve the problem by using the formula to find out the area of the rectangle. Area of rectangle = length breadth. = 6m 4m. = 24m2
67. Mathematics becomes very easy & comfortable. The speed of gaining knowledge increases. Used in the storage of time. No difficult for both teacher & students. More knowledge in less time. Laws, principles & formulas can easily be checked. Do the exercise quickly & easily. Short as well as practical.
68. Not in psychological principles. Students work like machine. Knowledge gained is unstable. Not scope of developing powers like logical, thinking & investigation. Not suitable for lower classes. Teaching – learning process become uninteresting & dull.
69. S.No Inductive Method Deductive Method 1. Particular to General General to particular. 2. A habit of discovery A habit of discovery is developed. is not developed. 3. Best method of Best method of teaching learning. 4. Suitable for lower Suitable for higher classes. classes. 5. Develop self – confidence Not Develop self – confidence & self – reliance. & self – reliance. 6. Discovery of new Use the knowledge gained knowledge by others.
70. 7. Scientific method. Not scientific method. 8. Develop scientific Not develop scientific attitude. attitude. 9. Emphasis on original Emphasis on problem - Solving. & creative work. 10. Teaching – learning Teaching – learning Process process become become dull. interested. 11. Slow method. Fast method. 12. Psychological method Unpsychological method. 13. Understanding Centered Memory – Centered