with a mass of unconnected facts. The conception of chemical equilibrium and the modern theory of solutions are freely used. The lectures will be experimental to a considerable extent. The courses are designed to meet the wants not only of those who wish to go deeper into chemistry, but of all who wish to study the science as part of a liberal education. The lectures and classroom work of 1, 2, and 3 may be taken by graduate students without the laboratory work or laboratory fee. 2S. General Chemistry: Inorganic.-(First course.) For students who have had Preparatory Chemistry. Prerequisite: Preparatory Chemistry and Preparatory Physics, one unit each. DM. First Term, Summer Quarter. Classroom, 6 hours a week; laboratory, 12 hours a week; PROFESSOR SMITH. Mj. Autumn Quarter. Classroom, 3 hours a week; laboratory, 6 hours a week; ASSOCIATE PROFESSOR MCCOY. 3S. General Chemistry: Inorganic.-Continuation of course 2S. DM. Second Term, Summer Quarter, PROFESSOR SMITH. Mj. Winter Quarter, MR. MENZIES. NOTE.-Course 2, Winter Quarter, is a continuation of course 1, but may be entered by those having credit for admission chemistry. Whenever, in exceptional cases, the preparation of a student in 28 justifies it, qualitative analysis may be substituted for 3S. 4. Elementary Organic Chemistry.-Prerequisite: course 3 or 3S. Mj. Autumn Quarter. Classroom, 3 hours a week; laboratory, 6 hours a week; PROFESSOR STIEGLITZ. Mj. Spring Quarter, DR. RAIFORD. PRIMARILY FOR THE SENIOR COLLEGES 6. Qualitative Analysis. (Introductory Course.) The lectures deal with the chemistry of the analytical reactions, and special attention is given to the development and application of the laws of equilibrium and solutions. This course is, in an important sense, one in advanced General Chemistry. Classroom, 2 hours a week; laboratory, 8 or 16 hours a week. Prerequisite: course 3 or 3S. Mj. or DM. Summer Quarter, PROFESSOR STIEGLITZ AND DR. SCHLESINGER. Autumn Quarter, PROFESSOR STIEGLITZ AND DR. SCHLESINGER; Winter Quarter, PROFESSOR STIEGLITZ; Spring Quarter, DR. SCHLESINGER. NOTE.-Courses 6, 7, and 10 form a continuous course, which may be begun in any quarter. The aim of courses 6, 7, and 10 will be to train the student to do intelligent analytical work, based on a knowledge of the scientific principles of the subject, and to apply and amplify his knowledge of General and Physical Chemistry. 7. Qualitative Analysis.-Continuation of course 6. Mj. or DM. Summer, Autumn, and Spring Quarters, DR. SCHLESINGER; Winter Quarter, PROFESSOR STIEGLITZ. 8. Quantitative Analysis.—(Introductory Course.) Chiefly laboratory work in gravimetric and volumetric analysis. Laboratory, 8 or 16 hours a week; lecture 1 hour. Prerequisite: course 7. Medical students will be admitted to the course after having taken course 6. M. or DM. First Term, Summer Quarter, DR. BARNARD. M. or DM. Second Term, Summer Quarter, MR. ANDERSON. Mj. Autumn, Winter, and Spring Quarters, DR. Barnard, NOTE.-Courses 8, 9, and 11 form a continuous course which may be begun in any quarter. 9. Quantitative Analysis. Continuation of course 8. Mj or DM. Laboratory, 10 or 20 hours a week. M. or DM. First Term, Summer Quarter, DR. BARNARD. M. or DM. Second Term, Summer Quarter, MR. ANDERSON. Mj. Autumn, Winter, and Spring Quarters, DR. BARNARD. PRIMARILY FOR THE GRADUATE SCHOOL 10. Advanced Qualitative Analysis.-Prerequisite: course 7. Mj or DM. Laboratory, 10 or 20 hours a week. Open to Senior College students. Continuation of courses 6 and 7. Summer, Autumn, and Spring Quarters, Dr. SCHLESINGER; Winter Quarter, PROFESSOR STIEGLITZ. 11. Advanced Quantitative Analysis.—Continuation of courses 8 and 9. Open to students in the Senior Colleges. Mj or DM. 10 or 20 hours a week. Spring Quarter, PROFESSOR Stieglitz. 12. Elementary Spectrum Analysis (Qualitative).-Emission (flame and electric spark) and absorption spectra of inorganic substances. Chiefly laboratory work. Mj. Winter Quarter, 13-19. Special Methods in Quantitative Analysis.-Chiefly laboratory work. 13. Electrolytic Methods. 14. Special Mineral Analysis. 15. Water Analysis. 16. Gas Analysis. 17. Organic Elementary Analysis. 19. Proximate Food Analysis. Prerequisite: course 9. First Term, Summer, and Spring Quarters, PROFESSOR STIEGLITZ; Autumn and Winter Quarters, DR. BARNARD. 20. Assaying. Fire-assay of gold, silver, and lead ores. Prerequisite: course 9. Winter Quarter, MR. FREAS. 25. Toxicology.-Mj. Autumn Quarter, PROFESSOR HAINES AND ASSISTANT. 26. Poisons and Their Detection.-A conference and laboratory course. M. Second Term, Spring Quarter, PROFESSOR HAINES. 30. Organic Chemistry.-Prerequisite: Qualitative Analysis. Mj. Autumn Quarter, PROFESSOR NEF. 31. Organic Chemistry.-Continuation of course 30. Mj. Winter Quarter, PROFESSOR NEF. 32. Organic Chemistry.-Continuation of course 31. M. First Term, Spring Quarter, PROFESSOR NEF. NOTE.-Courses 30, 31, and 32 form a continuous course, covering the compounds of carbon, including the fatty and the aromatic series. The aim of the courses will be to take up thoroughly the simpler compounds, going with great detail into the chemical behavior, the characteristic reactions, and relationships of the different classes of organic compounds, and considering with great care the synthetic methods by which they can be obtained. Richter's or Bernthsen's Organic Chemistry is used as a reference book; but recent literature will, in special cases be considered in detail. 33. General Organic Chemistry.-Fatty and aromatic series. Prerequisite: course 7. Lectures, 5 hours a week. Mj. (or M. First Term) Summer Quarter, PROFESSOR JONES. 34. Elementary Organic Preparations.-Laboratory work, 10 hours a week. This course is arranged to accompany the lectures of course 33. It may be taken without the lectures by students who have had Organic Chem. istry. Prerequisite: course 7. M. or Mj. Summer Quarter, PROFESSOR JONES. 35. Organic Preparations.-Laboratory work, 10 or 20 hours a week. Prerequisite: courses 7 and 9, Organic Chemistry (may be taken simultaneously with lectures on Organic Chemistry), and a reading knowledge of German. DM. First and Second Terms, Summer Quarter, PROFESSOR JONES. Mj. Autumn, Winter, and Spring Quarters, PROfessor Nef. 36. Organic Preparations.-Continuation of course 35. DM. First and Second Terms, Summer Quarter, PROFESSOR JONES. Mj. Autumn, Winter, and Spring Quarters, PROFESsor Nef. 37. Organic Preparations.-Continuation of course 36. DM. First and Second Terms, Summer Quarter, PROFESSOR JONES. Mj. Autumn, Winter, and Spring Quarters, PROFESSór Nef. 40. Special Chapters of Organic Chemistry.-Lectures. Prerequisite: course 32. M. Second Term, Spring Quarter, PROFESSOR NEF. 41. The Aromatic Series.-Lectures, 2 hours a week. Prerequisite: Organic Chemistry. Mj. Spring Quarter, PROFESSOR STIEGLITZ. 42. The Carbohydrates and the Terpenes and Their Derivatives.-Prerequisite: course 31. PROFESSOR STIEGLITZ. [Not given in 1909–10.] 43. Organic Nitrogen Derivatives.- Uric acid series, pyridine, quinoneimides, and phenazine compounds; a discussion of the alkaloids, ptomaines, and organic dye-stuffs. Prerequisite: course 31. Mj. Spring Quarter, PROFESSOR STIEGLITZ. 44. Physical Chemistry Applied to Organic Problems.-Lectures, 2 hours a week. Prerequisite: courses 31 and 60 and 62. 1⁄2Mj. Summer Quarter, PROFESSOR STIEGLITZ. 50. Inorganic Preparations.-Laboratory work. Prerequisite: course 9, and a reading knowledge of German. Mj. or DM. 10 or 20 hours a week. DM. Summer Quarter, PROFESSOR JONES. Mj. Autumn, Spring, and Winter Quarters, DR. SCHLESINGER. 51. Inorganic Preparations.-Continuation of course 50. Autumn, Winter and Spring Quarters, DR. SCHLESINGER. 52. Inorganic Preparations.- Continuation of course 51. Autumn, Winter and Spring Quarters, DR. SCHLESINGER. Mj. or DM. Mj. or DM. 53. Physical Chemistry Applied to Problems in General Chemistry.Prerequisite: College Physics 3, and Chemistry 7. PROFESSOR SMITH. [Not given in 1909-10.] 56. Advanced Inorganic Chemistry.-Two lectures a week on selected topics. Prerequisite: course 7. [Not given in 1909-10.] 57. The Chemistry of Photography.-[Not given in 1909-10.] 58. Debatable Questions in General Chemistry. -For teachers and others. [Not given in 1909-10.] 59. History of Physical Science.-A continuation of Philosophy 9, History of Science (ancient). A discussion of the origin and evolution of modern Physical Science in its relation to the growth of civilization. Prerequisite: Winter Quarter, MESSRS. MOULTON, MANN, AND SMITH. 60. Elementary Physical Chemistry, I.-Prerequisite Physics 1 and Chemistry 6. 1⁄2Mj. Summer and Spring Quarters, AssOCIATE PROFESSOR McCoy. 61. Elementary Physical Chemistry, II.-Continuation of course 60. Mj. or M. Second Term, Summer Quarter, ASSOCIATE Professor McCoy. 62. Physico-Chemical Measurements, I.-Prerequisite: Physics 1, Chemistry 8. Course 60 should accompany or precede this course. M. First or Second Term, Summer Quarter, or Mj. for the quarter; Mj. Spring Quarter, AssoCIATE PROFESSOR MCCOY. 63. Physico-Chemical Measurements, II.-Laboratory course. Prerequsite: Physics 3 and Chemistry 60. Course 65 should accompany or precede this course. Mj. or DM. Autumn and Spring Quarters, ASSOCIATE PROFESSOR McCoy. 64. Physico-Chemical Measurements, III.-Laboratory course. Continuation of course 63. Mj. or DM. Summer, Autumn, and Spring Quarters, ASSOCIATE PROFESSOR MCCOY. 65. Chemical Dynamics.-Prerequisite: course 60, course 4, and course 15 in Mathematics. Mj. ASSOCIATE PROFESSOR MCCOY. 66. Chemical Dynamics and Electro-Chemistry.-Prerequisite: As in course 65. AsSOCIATE PROFESSOR MCCOY. [Not given in 1909-10.] 67. Electro-Chemistry.-Prerequisite: course 60 and course 15 in Mathe matics. Mj. Spring Quarter, ASSOCIATE PROFESSOR MCCOY. 68. Radio-activity and the Nature of Matter.-Lectures. Prerequisite: course 60. Mj. Summer Quarter, ASSOCIATE PROFESSOR MCCOY. 69. Laboratory Course in Radio-activity.-To accompany or follow course 68. Mj. or M. Summer Quarter, ASSOCIATE PROFESSOR MCCOY. 70. Progress of Physical Chemistry in Last Two Years.-Prerequisite: course 60. M. ASSOCIATE PROFESSOR McCoy. [Not given in 1909-10.] 71. The Atomic Theory.-Prerequisite: course 8. Mj. Spring Quarter, ASSOCIATE PROFESSOR MCCOY. 80. Training Course in the Teaching of Chemistry.-This course, for prospective teachers in secondary schools, will include: (1) In autumn, observation of teaching in several schools in the city and reports on the same; (2) in winter, a series of conferences on the didactic of Chemistry; (3) in spring, practice-teaching in the University High School and in the Junior Colleges under criticism and supervision. Prerequisite: Chemistry 8, 60, and 62, and Physics 3. The most advanced of these prerequisites may accompany this Three Mjs. PROFESSOR SMITH. [Not given in 1909-10.] course. 81. History of Chemistry.-Two hours a week. Mj. Winter Quarter. 82. Club Meetings.-Meetings will be held twice a month. They may be attended by anyone interested. The subjects for the meetings will be announced at least one week in advance. Summer, Autumn, Winter, and Spring Quarters. 90-93. Research Work.-This course will include from 30 to 40 hours a week of laboratory work, under the special direction of some one of the instructors in the Department. It is expected that research work for a Doctor's thesis will require 4-6 quarters (4-6 DMj.). Before being admitted to research, a candidate must satisfy the instructors of the Department that his previous training has been sufficient. 90. Research in Organic Chemistry.-Autumn, Winter and Spring Quarters, PROFESSOR NEF. 91. Research in General Chemistry.-First_Term, Summer Quarter, and Autumn, Winter, and Spring Quarters, PROFESSOR SMITH. 92. Research in Organic and Physico-Organic Chemistry.-First Term, Summer Quarter, and Autumn, Winter, and Spring Quarters, PROFESSOR STIEGLITZ. 93. Research in Physical Chemistry.-Summer, Autumn, and Spring Quarters, AssOCIATE PROFESSOR MCCOY. XXI. THE DEPARTMENT OF GEOLOGY OFFICERS OF INSTRUCTION THOMAS CHROWDER CHAMBERLIN, PH.D., LL.D., Professor and Head of the Department of Geology. ROLLIN D. SALISBURY, A.M., LL.D., Professor of Geographic Geology. +RICHARD ALEXANDER FULLERTON PENROSE, JR., PH.D., Professor of Economic Geology. STUART WELLER, PH.D., Associate Professor of Paleontologic Geology. WILLIAM HARVEY EMMONS, PH.D., Associate Professor of Economic Geology and Mineralogy. † Absent on leave. WALLACE WALTER ATWOOD, PH.D., Assistant Professor of Physiography and General Geology. HARLAN H. BARROWS, S.B., Assistant Professor of Physiography and General Geology. ARTHUR CARLTON TROWBRIDGE, S.B., Instructor in Physiography. WILLIAM CLINTON ALDEN, PH.D., Docent in Field Geology. BAILEY WILLIS, Professorial Lecturer (Spring Quarter, 1909). CHARLES KENNETH LEITH, PH.D., Professorial Lecturer on Pre-Cambrian Geology (alternate Winter Quarters, 1909). ALBERT JOHANNSEN, PH.D., Instructor in Petrography (Spring Quarter, 1909). RUFUS HARVEY SARGENT, Instructor in Topographic Work (Spring Quarter, 1910). FELLOWS, 1909-10 CHARLES JOSEPH HARES, S.B. EDWIN RUSSELL LLOYD, A.B. JOSEPH BERTRAM UMPLEBY, A.B. INTRODUCTORY The aim of the Department is to provide systematic training in Geology, including Physical Geography, Mineralogy, Petrology, Economic Geology, and the geologic phases of Paleontology. The courses may be grouped with reference to the following ends: (1) General culture, (2) preparation for teaching, and (3) preparation for professional work on geological surveys, Mining and Economic Geology, or (4) other lines of investigation. Students preparing for positions in colleges or universities, or for professional work on surveys or in other fields, may devote the larger part of their time to General Geology, or they may specialize to some extent in Geographic Geology, Petrography, Economic Geology, or Paleontologic Geology. The brief synopses given under the several courses enumerated below indicate their general scope, but they are subject to modification in the interests of better adaptation to the attainments and abilities of students. REQUIREMENTS FOR THE DEGREE OF DOCTOR OF PHILOSOPHY A. The courses required for the Doctor's degree, Geology being the major subject, are as follows: 1. General Geology the principal subject: courses 8, 11, 12, 13, 14, 15, 16, 17, 18, 20, 21, 22, 23, 24, 30, 31, 32, 36, 38, 40, 51, and three of the following: 46, 47, 48, 53, 54, 55, together with special work in the line of the thesis. 2. Geographic Geology the principal subject: courses 8, 9, 11, 12, 13, 14 (DMj.), 15, 16, 17, 18, 20, 21, 38, 40, 50, 51, 58, and three of the following: 46 47, 48, 53, 54, 55, or their equivalents, courses 7 and 10 in Geography, together with special work in the line of the thesis; and in addition a general knowledge of Zoögeography and Geographic Botany. 3. Paleontologic Geology the principal subject: courses 8, 11, 12, 13, 14, 15, 16, 17, 20, 21, 22, 23, 24, 25, 26, 27 (the last three as DMj.), 36, 38, 50, 51, 58, and three of the following: 46, 47, 48, 53, 54, 55, or their equivalents, together with special work in the line of the thesis, and courses 1 and 2, in the Department |
