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TRANSCRIPT
TEACHINGOF
SCIENCE
Dr. R.N. PATELB.Sc. (Hons.), M.A., M.Ed., Ph.D.
Former Principal,Kapila Khandvala College of Education,
Santa Cruz, Mumbai.
MUMBAI DELHI NAGPUR BENGALURU HYDERABAD BHUBANESWAR CHENNAI PUNE INDORE AHMEDABAD
LUCKNOW ERNAKULAM KOLKATA GUWAHATI
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FIRST EDITION : 2016
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PREFACE
Mathematically, it can be said that Life-Science = 0. Utility of Science in our life is extremelyhigh.
This book is written with the sole purpose of helping the student-teachers in particular and theteachers’ world at large, in their study of science. Reading this book, they will love science.
This book covers a wide range of issues in the teaching of science and offers supporting tasksto students to enable them to translate theory into practice.
Large paragraphs have been converted into small ones so that the readers can understand andremember the contents well for a longer period. Sixth chapter of this book contains the latest matterregarding the ‘Global Perspective in Teaching Science’ to give the latest idea regarding ‘Globalisation’and this earth as a ‘Global Village’.
I take this opportunity to acknowledge my hearty thanks to Prin. Dr. P.N. Chavda, ThakurShyamnarayan College of Education and Research, Kandivali, Prin. Dr. (Mrs.) Vandana P. Maheshwari,KKCE, Santa Cruz and Prin. Shri Japanbhai Desai, Sardar B.Ed. College, Amroli, Surat, for theirtimely help in providing reference books which were really useful in my undertaking.
My hearty thanks to Shri Rameshbhai G. Sailor, a Deputy Manager, Heavy Water Plant Unit,CRIBHCO, for extending his hands of co-operation by providing suitable matter w.r.t. ‘GlobalPerspectives’ for this book.
I cannot help acknowledging my sincere thanks to three collegians, Kshitij M. Patel, Vismay M.Patel and Devang P. Sailor, all computer and internet experts for providing matter to make myendeavour a grand success.
I also acknowledge my sincere and hearty thanks to the publisher of this book for making theget-up and set-up of this book extremely attractive.
Constructive suggestions and comments on this book from the readers are welcomed.
R.N. PATEL
CONTENTS
1. SCIENCE — A WELLSPRING OF OUR DISCONTENT 1 – 6
About Science — Salient Traits of Science — What is Science?
2. MEANING, NATURE AND STRUCTURE OF SCIENCE 7 – 12
Meaning and Nature of Science — Structure of Science — Salient Features of Science.
3. SCIENCE CURRICULUM CONSTRUCTION 13 – 50
What is Curriculum? Definitions and Meaning — Purposes of Curriculum — MajorDefects in Present Curriculum — Critical Assessment — Improving Science Curriculum/Reforming Steps — Need for Planning of Curriculum — Constructing Curriculum inScience — Principles of Curriculum Construction — Science Curriculum Improvement inIndia — Important Bases of Curriculum Construction — Types of Curriculum in Science— Some Problems of Curriculum Construction.
4. THE PLACE OF SCIENCE IN SCHOOL CURRICULUM 51 – 57
Why to Learn Science? — Commissions/Committees Reports — Main Features of NationalCurriculum Framework for School Education, 2000.
5. CURRICULUM OF SCIENCE AT DIFFERENT STAGES 58 – 66
Aims of Science Education — Curriculum at Different Stages.
6. GLOBAL PERSPECTIVES IN SCIENCE TEACHING 67 – 85
What is Globalisation? Global Learning — Global Education Perspective — InfusingGlobal Education Perspective into Science Curriculum — Preparing Science Teacherswith a Global Perspective.
7. PLANNING FOR EFFECTIVE TEACHING AND LEARNING 86 – 95
Why to Plan? — Long Range Planning — Provision for Individual Differences — AbilityGrouping — Differential Assignments — Contract Type of Assignment — Multiple-levelType of Assignment — Directed Study and Individual Differences — Micro-teaching —Programmed Learning — Prognosis and Diagnosis — Planning a Schedule for a Course— Detailed Planning of Separate Unit of Work — Planning the Daily Lesson — PracticalHint on Planning the Daily Lesson.
8. MEANS OF EFFECTIVE INSTRUCTION 96 – 111
Important Considerations — Four Fundamental Problems of Instruction of Science —Instructing Science for Understanding — The Genetic Approach — DevelopmentalTeaching — Instruction for Assimilating Understanding — Directed Study in Science —Instruction for Permanence — Instruction for Transfer — Some non-traditional Patternsof Science Instruction
9. IMPORTANCE/VALUES OF TEACHING SCIENCE 112 – 126
What is Teaching Science? — Purposes of Teaching Science — Importance/Values ofTeaching Science — Utilitarian/Practical Value — Social Value — Moral Value —Aesthetical/Artistic Value — Intellectual Value — Disciplinary Value — Cultural Value— International Value — Psychological Value — Economical Value — Scientific Value— Concentrative Value — Expressive Value.
10. METHODS OF TEACHING SCIENCE 127 – 181
How to Teach? — Classification of Methods of Teaching Science — Lecture Method —Demonstration Method — Lecture-cum-demonstration Method — Historical Method —Discussion Method — Heuristic Method — Assignment Method — Project Method —Inductive-Deductive Method — Laboratory Method — Problem-solving Method - Whatis a Suitable Method of Teaching Science?
11. STIMULATING AND MAINTAINING INTEREST IN SCIENCE 182 – 191
Stimulus/Motivation — Interest — Suggestions for Stimulating and Maintaining Interestin Science.
12. LEARNING SCIENCE 192 – 197
What is Behaviour? — What is Learning? — What are Learning Activities? — What areLearning Experiences? — Learning Science — Types of Learning Science — Laws ofLearning Science.
13. EFFECTIVE & MEANINGFUL LEARNING IN SCIENCE 198 – 205
What is Learning? — What is Meaningful Learning? — What is Effective Learning? —Principles of Effective and Meaningful Learning in Science.
14. AIMS & OBJECTIVES OF TEACHING SCIENCE 206 – 217
Goals/Aims — Aims of Teaching Science — What are Objectives? — Relation betweenAims and Objectives — Objectives of Science — Instructional and Personality Objectives.
15. UNIT PLANNING AND DAILY LESSON PLANNING 218 – 235
The Unit — The Unit Planning — Approaches to Unit Plan — What is Lesson Planning?— Need/Importance of Lesson Planning — Its Principles — Pre-requisites for EffectiveLesson Planning — Types of Lesson Plans — Main Forms of Lesson Planning — UnitPlanning vs. Daily Lesson Planning.
16. EVALUATION IN SCIENCE TEACHING 236 – 248
Concepts of Test, Measurement & Evaluation — Nature and Purpose of Evaluation —Scope of Evaluation — Types of Evaluation — Continuity of Evaluation — Functions —Techniques — Improving Evaluation Programme — Question/Item Bank — Grade System.
17. AUDIO-VISUAL AIDS IN TEACHING OF SCIENCE 249 – 287
Introduction — Concept and Meaning — Significance — Need/Importance/Values of AVAids — Basic Principles of AV Aids — Problems Related to AV Aids — Classificationof TA — Types of Aids.
18. CORRELATION IN TEACHING OF SCIENCE 288 – 309
What is Correlation? — Need of Correlation — Importance/Advantages of Correlation —Correlation of Science with Life/Environment/Different Branches of Science/DifferentTopics in the Same Branch/Other Subjects — Correlation with Biological Sciences/Mathematics/Social Sciences/History/Geography/Civics/Language/Psychology/Philosophy/Fine Arts/Crafts/Engineering/Work Experience/Hygiene/Social and Physical Environments.
19. SCIENTIFIC METHOD — ATTITUDE — APPRECIATION 310 – 316
What is Scientific Method? — Some Implications of Using Scientific Method — ScientificAttitude — Development of Scientific Attitude — Scientific Appreciation.
20. CREATIVITY IN SCIENCE TEACHING 317 – 324
What is Creativity? — Process of Creativity — Approaches w.r.t. Nature of Creativity —Nature/Characteristics of Creativity — Creativity Development among Children — BasicPrinciples for Creativity Development — Creativity and Intelligence.
21. BACKWARDNESS IN SCIENCE: DIAGNOSTIC TESTING ANDREMEDIAL TEACHING 325 – 335
Causes of backwardness in Science — Diagnostic Testing and Remedial Teaching —Diagnostic Evaluation — Characteristics of an Efficient Programme of Diagnosis — Self-diagnosis by Pupils — Remedial Measures — Organising Remedial Teaching.
22. ENRICHMENT AND RECREATIONAL PROGRAMME FOR GIFTED 336 – 341
Identification of Gifted Children in Science — Selecting Enrichment and RecreationalMaterial — What Teachers can do for Gifted.
23. NATIONAL SCIENCE TALENT SEARCH SCHEME (NSTSS) 342 – 345
History of the Scheme — Selection Procedure — Aims of Science Talent Search —Summer Schools for NSTS Scholars.
24. MICRO-TEACHING (MT) 346 – 367
Need of MT — Definitions and Meaning — Nature and Characteristics — Procedure/Steps of MT Technique — Basic Principles — Merits and Demerits — Identification ofTeaching Skills — Skill of Introducing the Lesson — Skill of Probing Questions — Skillof Stimulus Variation — Skill of Reinforcement — Skill of Promoting Pupil Participation— Simulated Teaching — Its Elements — Problems of SSST.
25. PROGRAMMED LEARNING IN SCIENCE 368 - 390
Concept and Definitions — Meaning, Nature and Characteristics — What is a Frame? —Development of Programmed Material — Principles of PI/PL — Style of Programming
— Linear Programming — Branching Programming — Comparison — MatheticsProgramming — Applications of Programming Principles — Teaching Machines —Utilisation of Programmed Materials — Selection of Programmed Materials — Evaluationof Programmed Materials.
26. INFORMATION AND COMMUNICATION TECHNOLOGY (ICT) IN SCIENCE 391 – 398
Technology — Background Matters — Potentials of ICT — Essentials of ICT — Meansof ICT — How to use ICT? — Advantages and Disadvantages — What the IndianTeachers should do.
27. SCIENCE LABORATORY 399 – 415
What is a Science Lab? — Need/Importance/Functions of the Science Lab — Types ofScience Labs — Labs for the Higher Secondary Pupils — Organisation of Science Labs.
28. LABORATORY WORK/ACTIVITIES IN SCIENCE 416 – 434
Lab Work/Activities — Value/Importance — Types — Administration — Advantagesand Disadvantages — Role of Lab Work in Science Teaching — Problem of Space —Planning for Science Room — Planning Workrooms for Science in Elementary School —Purposes of Elementary Science Workroom — All Science Combination Lab — MobileScience Lab — Bulletin Board and Blackboard — First Aid in Science Lab.
29. SELECTION, PURCHASE, SUPPLY AND MAINTENANCE OF EQUIPMENT 435 – 446
Science Teacher and Equipment — Selection and Purchase — Planning — Sources —Reasons for Equipment — Supply — Projects to Fail — Supply and Distribution —Storage of Equipment — Arrangement — The Equipment Inventory — Care andMaintenance — Entry in the Registers.
30. IMPROVISATION OF APPARATUS 447 – 457
The Present Position — Equipment of Science Education — Characteristics — Processof Developing Improvised Apparatus — Classification of Educational Material —Importance/Values of Improvisation — Home-made Equipment — Problems — Advantages— Supply Strategies of Low Cost Equipment.
31. SCIENCE LIBRARY 458 – 465
What is Science Library? — Why Separate Science Library? — Utility/Need/Importance— Organisation and Management
32. SCIENCE FAIRS/EXHIBITIONS AND MUSEUMS 466 – 473
Introduction — Main Objectives of National-level Science Exhibition — Utility/Value —Organisation — Effective Organisation — Science Museums.
33. EXCURSIONS/VISITS/FIELD TRIPS 474 – 480
Introduction — Utility/Value/Benefits — Organisation — Precautions during Excursion.
34. SCIENCE TEXT BOOKS 481 – 496
Introduction — Meaning — Significance — Multiplicity of Good Text Books — Functions/Merits — Need/Importance — Characteristics/Features/Requirements — How to Use theText Book? — Critical Evaluation.
35. SELECTION AND ORGANISATION OF CONTENT OF A TEXTBOOK IN SCIENCE 497 – 507
Introduction — Selection — Organisation of Content — Types of Organisation.
36. SCIENCE TEACHER 508 – 532
Role/Importance — Need — Functions — Qualities and Characteristics — ProfessionalExpectations — Growth — Teacher Preparation before go into Classroom — ScienceTeacher’s Diary — Characteristics of Future Science Teachers in India.
37. SCIENCE CLUB 533 – 544
Introduction Objectives — Types — Need/Importance/Merits — Organisation — Meritsof Organising Activities — Evaluation.
BIBLIOGRAPHY 545 – 546
INDEX 547 – 550
1
1SCIENCE — A
WELLSPRING OF OURDISCONTENT
1.1 About Science
Science has many images. Nearly two centuries ago, Schiller said of Science — ‘To oneman it is the highest thing, a heavenly goddess; to another, it is a productive and proficientcow, who supplies him with butter’. On TV a scientist may be —
(i) a mad genius, or(ii) a man in a white laboratory-coat, or
(iii) an iron-willed and hard-driving researcher without time for or interest in his wifeor children.
On TV Science is — (1) space rockets,(2) computers, and(3) miracle coating that make razor blades last longer.
Warren Weaver (1960) — ‘Science is not technology, it is not gadgetry, it is not somemysterious cult, it is not a great mechanical monster. Science is an adventure of the humanspirit. It is essentially an artistic enterprise, stimulated largely by disciplined imagination,and based largely on faith in the reasonableness, order, and beauty of the universe of whichman is a part.’ Science like music and fine art, is a wellspring of the divine discontent that stirs man
to seek more of life than merely to eat and to sleep. And that discontent is flamed higher by the partner of science, advancing technology,
through which we can realistically contemplate the practical achievement of the highestideals for the condition of man.
The true significance of the space age, this accelerating age of science and technologyin which we now live, is that it is beginning to lead us to wonder, once again, about
2 TEACHING OF SCIENCE
the Nature and purpose of man about what constitutes the good life and the goodsociety.
The space age is bringing philosophy once again to the centre of the scene because theproducts of science and technology offer us the prospect of satisfying the material needsof all of the people of earth.
Today science is a matter of concern to everybody — it is a large and growing part of ournational effort. The flowering of science seems suddenly to have burst upon us. But, to be truthful, the progress of science has not been sudden. Rather it has come, by
and large, in steady and persistent small steps. So, with the 4th October, 1957, in theafternoon, Sputnik I made us realised that we were living in the age of man’s conquestof space.
The force of science has always, in modern times, been a major factor shaping socialand cultural patterns.
1.2 Salient Traits of Science
1. Science is constantly, systematically and inexorably revisionary. Science is a self-correcting process and one that is self-destroying of its own errors. It is the essence of the scientific way that none of the laws of science is sacred, but
stands or falls by the degree to which it works and by the effectiveness with which itsimplifies the apparent complexity of what we see in the neutral world around us, e.g.,
Aristotle believed that heavier bodies have stronger force and fall faster. But Galileoproved that light and heavy bodies fall from a certain height at the same rate if irrelevanteffects of air are discontinued.
It is the characteristics of science that it pushes constantly into new and unfamiliarrealm of existence, and when it does so, our older laws often prove inadequate and theirpredictions fail, requiring revision.
It is because of this externally revisionary nature that science is disruptive of the statusquo.
2. A related trait of science is its destruction of idols, destruction of the gods that men live by.Science, being self-revising, has no absolute right or absolute justice. It is not concerned with ultimate truths, but with useful or simple or aesthetically
beautiful inter-relationships among things apparently unconnected. In pre-Galilean times the people and the Church believed in the perfection of the Sun
and the notion that the Earth is at the centre of the Universe and the Sun revolvesaround the Earth. This notion much to the distress of the Church and of Galileo couldnot be held on an absolute basis when Galileo proved experimentally that it is not theSun but the Earth revolves round the Sun.
To live comfortably with science it is necessary to live with a dynamically changingsystem of concepts.
SCIENCE — A WELLSPRING OF OUR DISCONTENT 3
3. Not only are the tenets of science constantly subject to change and to revision, but itsprophets are under challenge too, e.g., The law of conservation of mass had to be modifiedand become the law of conservation of mass-energy when the relativistic physics of Einsteinemerged. What is the origin of the universe? George Gamow’s ‘Big Bang Theory’ and Fred
Hoyle’s continuous creation theory’ — both differ. To a non-scientist this disagreementcan be a source of great distress. How can these two experts disagree on matters ofexact science!
4. The findings of science have an embarrassing way of turning out to be relevant to thecustoms and to the civil laws of men — requiring these customs and laws also to be revised. The advancement of medical science can also bring us real embarrassment in these
fields because penal codes are often geared to a system for slower to adapt to changethan fits the pace of science.
5. Certainly we have seen spectacular changes in the concept of private property and ofnational borders as we have moved into the space age, e.g.,(1) At what height above a country is it perfectly all right to fly a satellite without consulting
the country? At what height does it become an invasion to fly an aeroplane or aballoon?
6. The pace of technological advance gravely threatens the bountiful and restorative power ornature to resist modification, e.g., polluted air from gigantic super-cities can spread beyondthe borders of whole states and cannot be rapidly enough cleansed by the rains, and thewines and the curative breathing of plants. Polluted rivers, harbours, beaches contaminate our food supplies, spread disease, violate
the beauty of the out-of-doors and on the other hand the space age gives us ever moreleisure to enjoy, could we but find it.
7. Another trait of science that leads to much hostility or misunderstanding by the non-scientistsis the fact that science is practised by a small group of superior people. Worse yet, the scientists who make up this elite are hard for others to understand. These scientists have a special language, verbal and mathematical, of their own. They
use common words in unfamiliar ways.8. The most socially important trait of science is that, it is a major source of man’s dissatisfaction
with the world as it is — it is a wellspring of man’s discontent with the status quo. The implicit promises of science and technology are the heart of the present rebellion
of the underfed and under-clothed. They give a clear achievable prospect of food and comfort for all, if only all the people
on earth become sufficiently determined to use science and technology to this end. Surely the 21st century has seen the harvest of the major fruits of science and engineering
in the underdeveloped regions of the earth. If we stand in the way of this irresistibleimpact of science on the developing cultural patterns, we will be destroyed. If we ignorethe approaching tides of progress, we may find ourselves on a small island isolated ina vast hostile sea.
4 TEACHING OF SCIENCE
We are now deep into the age of science. It cannot be ignored. Jet airplanes circle the globein hours. Image of wealth or poverty or of a particular political ideology flash into missionsof home, everywhere, instantly. Weapons systems can eradicate hundreds of millions of lives in minutes. And now
many nations diligently applying technological skills to the problems of how to designand manage such weapons systems.
The magnificent structure of the relativity theory of Einstein, a notion that has stirred thevery foundations of our thinking, a creation of beauty that ranks with the greatest of Beethoven.
And with this age of science, comes its promise of what the life of man can be, with foodfor all, with education for all, with human freedom, with a stable population. With this age of technology comes the realistic expectation that even the added billions
can live in harmonious equilibrium with a natural environment of quality. For man, life need not be nasty, brutish, short — but a life rich with peace of mind and
rewarding leisure tasks, with comfort and health. In our explosively changing world it is no longer sufficient to live with philosophies or
religions simply handed down from an older generation. We must take up a vital,flexible and ever-evolving concern about the nature and purpose of man, and aboutwhat constitutes a good life and a good society in the light of today’s communications,population growth, races, political systems, weapons.
Rather than, simply fight for the preservation of the old things that are good, we mustplan creatively also to shape the new.
There will always be danger. Thornton Wilder — ‘Every good and excellent thingstands moment by moment at the razor edge of danger, and must be fought for.’
To be what we can be, we must be unafraid to place ourselves, our ways of life, oureconomic systems, in the microscope of science. To be what we can be, we must firstand foremost know what we want to be.
1.3 What is Science?
Man, by nature, is inquisitive, curious. He tries to find ‘How’ and ‘Why’ of all that happensin nature and his surroundings. What is science? and How does it grow?’ — are the keyquestions for him to know and understand. His spirit of inquiry at first extends to most simple facts of nature and afterwards on
complex ones. The curiosity of man to know about nature’s mysteries led to the establishment of
certain knowledge based upon facts. He also tried to understand its laws and tried to make use of them in his day-to-day life.
There is no one exact definition of ‘science’ which is universally accepted. A.D. Ritchie —‘Science is the process of exploring the external world.’ Henry Poincare — ‘Science is builtof facts as a house is built of stones; but an accumulation of facts is no more a science thana heap of stones.’
SCIENCE — A WELLSPRING OF OUR DISCONTENT 5
Thus, Science is a process by which we increase and refine understanding of ourselvesand of universe through continuous empirical and active observations, systematicexperimentation, application and verification.
There cannot be any event in nature without any reason. There is a universal law of‘cause and effect’. Science is nothing but a search for causes of natural phenomena andother events.
Science is a cumulative and endless series of empirical observations which results in theformation of concepts and principles.
Science is both — a body of knowledge and the process of acquiring it. Science is an accumulated and systematised learning in general usage restricted to
natural phenomenon. The progress of science is marked not only by the accumulation of facts, but also by
the emergence of scientific method and of the scientific attitude. Science is more of a verb than it is a noun. Because the true nature of science reveals
more in the way it is sought rather than in what is found. In the process of search for knowledge and truth, man has accumulated a vast store of
knowledge known as science through which —(a) We can get sufficient help to understand ourselves, our surroundings and environment,
i.e., our external world;(b) We can also get help for making the forces around us favourable to us;(c) We can obtain the basis for improving and making our lives more comfortable by
making adjustments to the new discoveries and inventions and to the old stock ofknowledge;
(d) This store of gained knowledge can be transferred from one generation to another forpreservation and for the process of civilisation.
To understand one of the definitions of science we have to understand how scientists work,because ‘science is what scientists do.’
There are at least three basic functions that scientists do.
(1) Scientists describe: They search the answers of the questions — What is this universe? What are the structures
and functions of it? How vast it is?, etc. They try to describe natural phenomena and establish relationship between them. For this,
they use scientific method. This description made by a scientist on the basis of his observations and critical thinking
is open to verification and can be changed by other scientists.
(2) Scientists explain: After describing a phenomenon/event, scientists try to find out the reason why the event
occurs.
6 TEACHING OF SCIENCE
This involves careful observation of interactions and inter-relationships between differentthings and conditions under which such phenomena occur. An explanation is a very careful description which involves the knowledge of the
different factors/variables. For example, second type of levers always give mechanical advantage. Why? To explain
this the knowledge of load, load-arm, effort, effort-arm, law of moments, etc. is quitenecessary.
(3) Scientists predict Extending our knowledge to new situations involves prediction, e.g., when acidic oxide
reacts with water, acid is formed. Then one may predict that when basic oxide reactswith water, base may be formed. One has to test it. If it does then the prediction iscorrect. Scientists go on testing to see if principles that apply in one situation may alsoapply in another.
Science is the process and method and not the result of the process. The knowledge itselfis, no doubt, important but more important is the method of explaining that knowledge. Science guides us in the solution of problems objectively without any bias and prejudice.
Thus, it directs us in the real pursuit of truth. Science cannot be merely termed as the body of accumulated facts but it is essentially
a process or method of explaining and accumulating these facts. Science, therefore, is a process or method adopted in the search of truth.
EVALUATE YOURSELF
1. ‘Science like music and fine art, is a well-spring of the divine discontent that stirs man to seek moreof life than merely to eat and to sleep’ — Comment giving suitable illustrations.
2. Explain at length the salient traits of science.3. ‘Science is what scientists do’ — Explain such that ‘what science is’ can be well-understood.
* * *‘Make a European Society with India’s religion … Be western in your spirit of equality, freedom,work and energy and at the same time a Hindu to the very backbone in your religious cultureand instinct.”
— Swami Vivekanand