The demand for industrial education has grown out of a reorganization of the industries and trades of the world. The great industries of the country require men of trained minds and directive intelligence to organize and control them. Mechanical skill is in great demand, and workmen must be trained not merely in dexterity and skill in the use of tools, but they must be so instructed in the principles governing science that they shall be able to reach results of the highest practical value in the sciences and arts. This age requires better mechanics, manufacturers, foremen, architects, farmers, and engineers—men whose creative genius will help to awaken the aspirations of the race to master the forces of nature and bring in an era of more convenience, comfort, and leisure for the cultivation of the mind and heart.

Our systems of education are planning to meet the needs of the people. Manual training that is adapted to youth between twelve and seventeen years of age is incorporated in the curricula of many of the existing public schools. Besides, we have in the United States more than one hundred advanced schools in technology founded as independent organizations. One-third of them have shops for laboratory practice.

The fact that such a prominent place has been given to the physical and practical sciences in the courses of study in colleges shows that these institutions are responding to the constantly increasing demands of a practical age. Scientific departments have been advantageously established in connection with our well-endowed universities. It is both desirable and practicable to give instruction in mechanical, electrical, and civil engineering in our high grade colleges. This should not be done, however, at the expense of liberal culture.

How far the colleges can meet the demand for technical and practical education depends upon their condition and resources. They cannot make bricks without straw. Wealthy men cannot perform a more generous act than to help establish these schools of technology in connection with our colleges, in order to give instruction in the practical and useful arts of life.

There is danger, perhaps, in pressing the utilitarian principle in education too far. It is not the colleges that make the greatest show of utility that develop the most effective men. In the effort to secure a practical education, it is important not to lessen the power to understand and apply the foundation principles which underlie actual practice.

In the German universities the practical and technical are left alone. Professor J. M. Hart says of them that their "chief task, that to which all their energies are directed, is to develop great thinkers—men who will extend the boundaries of knowledge." We are under different conditions in this country, but the importance of the principle should not be overlooked. Every one has not the desire or ability to be a great scholar and thinker, but preparation for all the so-called practical careers of life should at least carry the student through the rigorous discipline of a college course up to the Junior year, when he may elect studies of a more technical nature looking to his life work. This is the best way to get a profound insight into principles from which to deduce practice and promote the interests of human society.

Professor Josiah Royce has well said that "the result of this 'conflict' between the two ideals of academic work has been the union of both in the effort of all concerned to build up a system of university training whose ideal is at once one of scholarly method and of scientific comprehension of fact. For the scholar, as such, be he biologist, or grammarian, or metaphysician, the exclusive opposition between 'words' and 'things' has no meaning. He works to understand truth, and the truth is at once word and thing, thought and object, insight and apprehension, law and content, form and matter. * * * There is no science unexpressed; there is no genuine expression of truth that ought not to seek the form of science."

The importance of scientific theories leading to the best practical results is illustrated in the case of Columbus, whose investigations led him to believe in the sphericity of the earth and the probability of land in the far West. "Adams and Leverrier discovered Neptune simultaneously and independently, simply because certain observations had revealed perturbations that could be most naturally accounted for by the existence of an unknown planet." After Professor Helmholtz and others had made known the subtle laws of the transmission of sound, there was only a step to its practical application in the use of the telephone.

The essential condition in all industrial and social progress is the acquisition of judgement, skill, and foresight by patient study of facts and principles. It is energy within the being that gives birth to achievement in the outward sphere of practical life. It is certainly the prerogative of the colleges to extend the best educational opportunities to the people. It should embrace their intellectual and industrial pursuits.

The lofty and sacred purpose to render the highest service, to advance the welfare of men, is best reached by training men and women for leadership. The demand for educated and influential Christian leadership is greater than the supply. In 1890 there were about 15,000,000 pupils in the public schools receiving elementary instruction, while only one in 455 of the population was under superior instruction in colleges. The majority of this small number will be among the real leaders of the country. The character of the nation will, in a large measure, depend on the character of the colleges which train and shape these leaders.