Aaron Copland School of Music
The Aaron Copland School of Music is one of the oldest and most distinguished departments at Queens College, founded when the College opened in 1937.
The department's curriculum was originally established by Edwin Stringham, and a later emphasis on the analytical system of Heinrich Schenker was initiated by Saul Novack.
Some of the students who enrolled in early classes of the college later became faculty members of the department. This included Sol Berkowitz, Gabriel Fontrier, Leo Kraft. Other distinguished faculty from the early years included John Castellini, who founded the Choral Society; Boris Schwarz, a refugee from his native Russia in 1917 and later from Nazi Germany in the 1930s; Saul Novack, who later became Dean of the Division of Arts and Humanities; and Barry Brook, who with Saul Novack established the doctoral program in music at the Graduate Center of CUNY. Joseph Machlis, developed the teaching of music appreciation to a high art, and wrote the most successful series of music appreciation textbooks in history. (Machlis's Enjoyment of Music: An Introduction to Perceptive Listening has been used by more than 3.5 million students and is in its tenth edition.[1]) Later distinguished faculty included Felix Salzer, a refugee from Austria who was a student of the theorist Heinrich Schenker and became the leading exponent of his ideas to generations of American students and scholars; and the distinguished composers Hugo Weisgall and George Perle.
Notable alumni
- Arturo O'Farrill
- Conrad Herwig
- JoAnn Falletta
- Frank Lopardo
- Erika Sunnegårdh
- George Tsontakis
- Tito Muñoz
Notable faculty
- Sol Berkowitz
- William Rothstein
- Hugo Weisgall
- Jimmy Heath
- Daniel Phillips
- George Perle
- Thea Musgrave (emeritus)
- Leo Kraft
- Marcy Rosen
- David Jolley
- Carl Schachter
- Charles Neidich
- Stephanie Chase
- Roland Hanna
- Maurice Peress
- Bruce Saylor
- Sidney Outalw
- Irene Breslaw
- Nina Lelchuk
- Henry Weinberg
References
http://qcpages.qc.cuny.edu/music/index.php?L=1&M=2