« AnteriorContinuar »
A SERIES OF PROBLEMS,
FAMILIARIZE THE PUPIL WITH GEOMETRICAL CONCEPTIONS,
AND TO EXERCISE HIS INVENTIVE FACULTY.
WILLIAM GEORGE SPENCER.
WITH A PREFATORY NOTE
BY HERBERT SPENCER.
ENTERED, according to Act of Congress, in the year 1876,
By D. APPLETON & CO.,
In the Office of the Librarian of Congress, at Washington.
PREFACE TO THE AMERICAN EDITION.
This little book, prepared by an experienced mathematical teacher for the use of his own pupils, is based upon the prin. ciple that the best and only true education is self-education. It introduces the beginner to geometry by putting him at work on problems which will not only thoroughly familiarize his mind with geometrical ideas, but will exercise, at the same time, bis inventive and constructive faculties--a kind of mental practice of much importance, but generally neglected in our schools. These problems, which are simple at first and skillfully graded, the pupil is to solve, himself, without assistance. The author prepared no key to the work, considering that any such help in getting through it would defeat its purpose.
As this little book seeins well suited to accompany the 'Science Primers,” that are now appearing from time to time, it has been gotten up in the same form, and is included among the American reprints of that elementary series.
The author of this volume of exercises was the father of Herbert Spencer, the eminent philosophical thinker, and whose valuable work on Education has been translated into nearly all the languages of Europe. He cordially commends the method of the “Inventional Geometry" from both observation and experience, as will be seen by the following letter:
PREFACE TO THE AMERICAN EDITION.
NOTE FROM HERBERT SPENCER.
LONDON, June 3, 1876. Messrs. D. APPLETON & Co.: I am glad that you are about to republish, in the United States, my father's little work on " Inventional Geometry.” Though it received but little notice when first issued bere, recoguition of its usefulness has been gradually spreading, and it has been adopted by some of the more rational science teachers in schools. Several years ago I heard of its introduction at Rugby.
To its great efficiency, both as a means of producing interest in geometry and as a mental discipline, I can give personal testimony. I have seen it create in a class of boys so much enthusiasm that they looked forward to their geometry-lesson as a chief event in the week. And girls initiated in the system by my father have frequently begged of him for problems to solve during their holidays.
Though I did not myself pass through it for I commenced mathematics with my uncle before this method had been elaborated by my father—yet I had experience of its effects in a higher division of geometry. When about fifteen, I was carried through the study of perspective entirely after this same method: my father giving me the successive problems in such order that I was enabled to solve every one of them, up to the most complex, without assistance.
Of course, the use of the method implies capacity in the teacher and real interest in the intellectual welfare of his pupils. But given the competent man, and he may produce in them a knowledge and an insight far beyond any that can be given by mechanical lesson-learning.
Very truly yours,
When it is considered that by geometry the architect constructs our buildings, the civil engineer our railways; that by a higher kind of geometry, the surveyor makes a map of a county or of a kingdom; that a geometry still higher is the foundation of the noble science of the astronomer, who by it not only determines the diameter of the globe he lives upon, but as well the sizes of the sun, moon, and planets, and their distances from us and from each other; when it is considered, also, that by this higher kind of geometry, with the assistance of a chart and a mariner's compass, the sailor navigates the ocean with success, and thus brings all nations into amicable intercourse—it will surely be allowed that its elements should be as accessible as possible.