College Teaching

Chapter II, so complete in scope, so thoroughly sound and progressive in character, is here suggested as a type of professional preparation now sorely needed.

3. Combination of lecture and development method.

4. Reference readings and the presentation of papers by students.

5. Laboratory work by students, together with lectures and quiz sections.

Teachers have long debated the relative merits of these methods or combinations of them. They fail to realize that each method is correct, depending upon the aim to be accomplished and the governing circ.u.mstances. No method has a monopoly of pedagogical wisdom; no method, used exclusively, is free from inherent weakness. A teaching method must be judged by its ability to arouse and sustain self-activity and to attain the aim set for a specific lesson. With this standard for judging a method of teaching, we must stop to sum up the relative worth of common methods of college teaching.

=Lecture method evaluated=

The _lecture method_ has been the target for much criticism for many centuries. Socrates inveighed against its use by the sophists, and educators since have repeated the attack. The reasons are legion: (_a_) The lecture method tends to discourage the pupil"s activity. The student feels no responsibility during the lecture; he listens leisurely, and makes notes of the instructor"s contribution. The student"s judgment is not called into play; he learns to take knowledge on the authority of the instructor. The sense of comfort and security experienced in a lecture hour is fatal even to aggressive and a.s.sertive minds. Sooner or later the students succ.u.mb to the inertia developed by the lecture system.

(_b_) A second limitation of an exclusive lecture method is its inability to make permanent impressions. Many a student, entering the lecture hall, has completely forgotten even the theme of the last lecture. Knowledge is retained only when it is obtained by the expression of self-activity. To offset this weakness notes must be taken, but these prove to be the bane of the lecture method. Some students, in their efforts to record a point just concluded, lose not only the thought of what they are trying to write but also the new thought which the instructor is now explaining; they drop both ideas from their notes and wait for the next step in the development of the lecture. This accounts for the many gaps in the notes kept by students. Some instructors, dismayed by the amount of knowledge lost by students, resort to dictation devices. Others, realizing the pedagogical weakness of such teaching, distribute mimeographed outlines of carefully prepared summaries of the lectures. Now the student is relieved of the tedium of note taking, but the temptation to let his mind wander afield is intensified. An outline, scanty of detail, but so devised as to keep the organization and sequence of subject matter clear in the minds of students, is, of course, helpful.

But detailed outlines distributed among the students discourage even attentive listening.

(_c_) In teaching by lectures only there is no contact between student and teacher. The student does not recite; he does not reveal his type of mind, his mode of study, his grasp of subject matter. He is merely a pa.s.sive recipient. To this third weakness of the lecture method we may add a fourth: (_d_) it tends to emphasize quant.i.ty rather than method. The student is confronted with a great ma.s.s of facts, but he does not acquire a mode of thought nor does he see the method by which a given subject is developed. (_e_) The lecture method, therefore, inculcates in students an att.i.tude of mental subservience which is fatal for the development of courageous and vigorous thought. And finally (_f_) it must be urged that in lecture teaching the instructor is not testing the accuracy of the students" conceptions nor is he able to judge the efficacy of his own methods.

But, on the other hand, it must be admitted that with an effective lecturer, possessed of commanding personality, the lecture gives a point of view of a subject and an enthusiasm for it which other devices fail to achieve. The lecture method makes for economy of time and enables one to present his subject to his cla.s.s with a succinctness absent from many textbooks. Where much must be taught in a limited time, where a comprehensive view of an extensive field must be given, when certain types of responses or mental att.i.tudes are desired, the lecture serves well.

=Final worth of lecture method=

Experience teaches that an exclusive lecture system is not conducive to efficient work; that lectures to regular cla.s.ses ought to be punctuated by questions whenever interest lags; that the occasional and even the unannounced lecture is more effective; that supplementary devices for checking up a.s.signments and regular collateral study are of vital importance. Where regular lectures are followed by detailed a.n.a.lyses in quiz sections the best results are obtained when the lecturer himself is the questioner. Where quiz sections are turned over to a.s.sistants, wise procedure requires that quiz leaders attend the lectures and decide, in conference with the lecturer, the specific aims which must be achieved in the quiz work and the a.s.signed readings which must be given to students in preparation for each quiz hour.

Unless this is done, the student is frequently confused by the divergent points of view presented by lecturer, quiz master, and textbook.

_The development method_ has much to commend it. It stimulates activity by its repeated questions. Few or no notes are taken. There is constant contact with the student. At every point the mental content of the pupils is revealed. The teacher sees the result of his teaching by the intelligence of successive responses. The pupil is being trained in systematic thought and in concentration. But it must be remembered that the development method is often costly in time because answers may be wrong or irrelevant. It may encourage wandering; a student"s reply reveals ignorance of a basic principle, and the aim of the lesson is often forgotten in the eagerness to patch up this misconception. Then, too, in subject matter that is arbitrary, as in descriptive and narrative history, no development is possible. In such cases the questions are designed to test the student"s knowledge of the text, and the lesson becomes a quiz rather than a development.

It is plain, therefore, that a judicious combination of the lecture and development methods will give better results than the exclusive use of either one. The a.n.a.lysis of the pedagogical advantages of each leads to the conclusion that the development method should predominate and that the lecture method should be used sparingly and always with some of the checking devices described.

=Place of reference reading in college teaching=

=Evaluation of development--Socratic or heuristic method=

A common method employed in advanced courses in college subjects emphasizes _reference study and research_. The entire course is reduced to a series of problems, each of which deals with a vital aspect of the subject. Each student is made responsible for a topic.

The initial hours are devoted to an examination of the common sources of information in this specific subject, the modes of using these, the standards to be attained in writing a paper on one of the topics, and similar matters. The remainder of the term is given over to seminar work: each student reads his paper and holds himself in readiness to answer all questions his cla.s.smates may ask on his topic. The aims of such a course are obviously to develop a knowledge of sources and an ability to use intelligently the unorganized data found by the student. The results of these pseudo-seminar courses are far from what was antic.i.p.ated. A thorough investigation of such a course will soon convince the teacher that the seminar method, whatever its merits in university training, must be refined and diluted before it is applied to college teaching. Let us see why.

Successful reference reading requires a knowledge of the field studied, maturity of mind, discriminating judgment in the selection of material, and ability in organization. The university student is not only maturer and more serious but has a basis of broader knowledge than most undergraduates. Without this equipment of mental powers and knowledge, the student cannot judge the merits of contending views nor harmonize seeming discrepancies. A student who has no ample foundation of economics cannot study the subject by reference reading on the problems of economics. To learn the meaning of value he would read the psychological explanations of the Austrian schools and the materialistic conceptions of the cla.s.sical writers. He would then find himself in a state of confusion, owing to what seemed to him to be a superfluity of explanations of value. When one understands one point of view, an added viewpoint is a source of greater clarity and a means of deeper understanding. But when one is entirely ignorant of fundamental concepts, two points of view presented simultaneously become two sources of confusion. In the university only the student of tried worth is permitted to take a seminar course. In the upper cla.s.ses in college, mediocre students are often welcomed into a seminar course in order to help float an unpromising elective.

=Limitations of seminar method in undergraduate teaching=

The college seminar is usually unsuccessful because few students have ability to hold the attention of their cla.s.smates for a period of thirty minutes or more. Language limitations, lack of a knowledge of subject matter, inability to ill.u.s.trate effectively, and the skeptical att.i.tude of fellow students all militate against successful teaching by a member of the cla.s.s. Students presenting papers often select unimportant details or give too many details. The rest of the cla.s.s listen languidly, take occasional notes, and ask a few perfunctory questions to help bring the session to a close. A successful hour is rare. The student who prepared the topic of the day undoubtedly is benefited, but those who listen acquire little knowledge and less power. The course ends without a comprehensive view of the entire subject, without that knowledge which comes from the teacher"s leadership and instruction. This type of reference reading and research has value when used as an occasional ten or fifteen minute exercise to supplement certain aspects of cla.s.s work. But as a steady diet in a college course, the seminar usually leaves much to be desired.

The _laboratory method_ is growing in favor today in college teaching.

It is employed in the social sciences, in sociology, in economics, in psychology, in education, as well as in the physical and the biological sciences. Where it is followed the aim is clearly twofold; viz., to teach the method by which the specific subject is growing and to develop in the students mental power and a scientific att.i.tude towards knowledge.

=Value of laboratory method=

Let us ill.u.s.trate these two aims of the laboratory method. A laboratory course in chemistry or biology or sociology may be designed to teach the student the use of apparatus and equipment necessary for work in a respective field; the method of attacking a problem; a standard for distinguishing significant from immaterial data; methods of gathering facts; the modes of keeping scientific records,--in a word, the essence of the experience of successive generations of investigators and contributors. But no successful laboratory results can be obtained without a proper mental att.i.tude. The student must learn how to prevent his mental prepossessions or his desires from coloring his observations; to allow for controls and variables; to give most exacting care to every detail that may influence his result; to regard every conclusion as a tentative hypothesis subject to verification or modification in the light of further test. Unless the student acquires a knowledge of the method of science and has achieved these necessary modes of thought, his laboratory course has failed to make its most significant contribution.

In courses where the aim is to teach socially necessary information or to give a comprehensive view of the scope of a specific subject, it is obvious that the laboratory method will lead far afield. It is for this reason that introductory courses given in recitations, with demonstrations by instructors, and occasional lecture and laboratory hours, are more liberalizing in their influence upon the beginners than courses that are primarily laboratory in character.

=Cautions in the use of the laboratory method=

Most laboratory courses would enhance their usefulness by observing a few primary pedagogical maxims. The first of these counsels that we establish most clearly the distinctive aim of the course. The instructor must be sure that he has no quant.i.tative aim to attain but is occupied rather with the problems of teaching the method of his specialty. Second, an earnest effort must be made to acquaint the students with the general aim of the entire course as well as with the specific aim of each laboratory exercise. The students must be made to realize that they are not discovering new principles but that by rediscovering old knowledge or testing the validity of well-established truths they are developing not only the technique of investigational work, but also a set of useful mental habits. Much in laboratory work seems needless to the student who does not perceive the goal which every task strives to attain.

A third requisite for successful laboratory work requires so careful a gradation that every type of problem peculiar to a subject is made to arise in the succession of exercises. It is wise at times to set a trap for students so that they may learn through the consequences of error. For this reason students may be permitted to leap to a conclusion, to generalize from insufficient data, to neglect controls, to overlook disturbing factors, etc. An improperly planned and poorly graded laboratory course repeats exercises that involve the same problems and omits situations that give training in attacking and solving new problems.

Effective laboratory courses afford opportunity to students to repeat those exercises in which they failed badly. If each exercise in the course is designed to make a specific contribution to the development of the student, it is obvious that merely marking the student zero for a badly executed experiment is not meeting the situation. He must in addition be given the opportunity to repeat the experiment in order to derive the necessary variety of experiences from his laboratory training. And, finally, the character of the test that concludes a laboratory course must be considered. The test must be governed by the same underlying aims that determine the entire course. It must seek to reveal, not the mastery of facts, but growth in power. It must measure what the student can do rather than what he knows. A properly organized test serves to reinforce in the minds of students the aims of the entire course.

=The college teacher not the university professor=

An a.n.a.lysis of effective teaching is necessarily incomplete that does not give due consideration to the only human factor in the teaching process--the teacher. We have too long repeated the old adages: "he who knows can teach"; "a teacher is born, not made"; "experience is the teacher of teachers." These dicta are all tried and true, but they have the failings common to plat.i.tudes. It often happens that those who know but lack in imagination and sympathy are by that very knowing rendered unfit to teach. "Knowing" so well, they cannot see the difficulties that beset the learner"s path, and they have little patience with the student"s slow and measured steps in the very beginnings of their specialty. It is true that some are born teachers, but our educational inst.i.tutions could not be maintained if cla.s.ses were turned over only to those to whom nature had given lavishly of pedagogical power. Experience teaches even teachers, but the price paid must be computed in terms of the welfare of the student. Teaching is one of the arts in which the artist works only with living material; yet college authorities still make no demand of professional training and apprenticeship as prerequisites for admission to the fraternity of teaching artists.

Ineffective college teaching will not improve until professional teaching standards are set up by respected inst.i.tutions. The college teacher must be possessed of ample scholarship of a general nature. He must have expertness in his specialty, to give him a knowledge of his field, its problems and its methods. He must be a constant student, so that his scholarship in his specialty will win recognition and respect. But part of his preparation must be given over to professional training for teaching. Without this, the prospective teacher may not know until it is too late that his deficiencies of personality unfit him for teaching. With it, he shortens his term of novitiate and acquires his experience under expert guidance. The plan of college-teacher training, given by Dr. Mezes in Chapter II, so complete in scope, so thoroughly sound and progressive in character, is here suggested as a type of professional preparation now sorely needed.

=Testing the results of instruction=

The usual test of teacher and student is still the traditional examination, with its many questions and sub-questions. We still measure the results of instruction by fathoming the fund of information our students carry away. But these traditional examinations test for what is temporary and accidental. Facts known today are forgotten tomorrow. The professor himself often comes to cla.s.s armed with notes, but he persists in setting up, as a test of the growth of his students, their retentivity of the facts he gave from these very notes. In the final a.n.a.lysis, these examinations are not tests. The writer does not urge the abolition of examinations, but argues rather for a reorganized examination that embodies new standards. A real examination must test for what is permanent and vital; it must measure the degree to which students approximate the aims that were set up to govern the entire course; it must gauge the mental habits, the growth in power, rather than facts. Part of an examination in mathematics should test students" ability to attack new problems, to plan a line of work, to think mathematically, to avoid typical fallacies of thought. For this part of the test, books may be opened and references consulted. In literature we may question on text not discussed in cla.s.s to ascertain the students" power of appreciation or of literary criticism. So, too, in examinations in social sciences, physical sciences, foreign languages, and biological sciences, the examination must consist, in great measure, of questions which test the acquisition of the habits of thought, of work, of laboratory procedure--in a word, the permanent contribution of any study. This part of an examination should be differentiated from the more mechanical and memory questions which seek to reveal the student"s mastery of those facts of a subject which may be regarded as socially necessary. Reduce the socially necessary data of any subject to an absolute minimum and frame questions on it demanding no such slovenly standard--sixty per cent--as now prevails in college examinations. If the facts called for on an examination are really the most vital in the subject, the pa.s.sing grade should be very high. If the questions seek to elicit insignificant or minor information, any pa.s.sing mark is too high. It is obvious, therefore, that a student should receive two marks in most subjects,--one that rates power and another that rates mere acquisition of facts. The pa.s.sing grade in the one would necessarily be lower than in the other. An examination is justified only when it is so devised that it reveals not only the students" stock of socially useful knowledge but also their growth in mental power.

PAUL KLAPPER _College of the City of New York_

PART TWO

THE SCIENCES

CHAPTER

IV THE TEACHING OF BIOLOGY _T. W. Galloway_

V THE TEACHING OF CHEMISTRY _Louis Kahlenberg_

VI THE TEACHING OF PHYSICS _Harvey B. Lemon_

VII THE TEACHING OF GEOLOGY _T. C. Chamberlin_

VIII THE TEACHING OF MATHEMATICS _G. A. Miller_

IX PHYSICAL EDUCATION IN THE COLLEGE _Thomas A. Storey_

IV

THE TEACHING OF BIOLOGY

BIOLOGY AND EDUCATION

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