Informatation science , what is the Notation , what is  octap device, what is sector device, what is an empty digit, what is emptying digit, 

Students compose and notate short 4/4, 3/4, and 6/8 rhythms across multiple class periods.

Bhattacharya, Ganesh; Ranganathan, Shri Radha (1974). "From knowledge classification to library classification". In Wojciechowski, Jerzy A. (ed.). Ottawa Conference on the Conceptual Basis of the Classification of Knowledge, 1971. Munich: Verlag Dokumentation. pp. 119–143.^ Bliss, Henry Evelyn (1933). The organization of knowledge in libraries. New York: H. W. Wilson.

This course describes discrete mathematics, which involves processes that consist of sequences of individual steps (as compared to calculus, which describes processes that change in a continuous manner). The principal topics presented in this course are logic and proof, induction and recursion, discrete probability, and finite state machines. Upon successful completion of this course, the student will be able to: Create compound statements, expressed in mathematical symbols or in English, to determine the truth or falseness of compound statements and to use the rules of inference to prove a conclusion statement from hypothesis statements by applying the rules of propositional and predicate calculus logic; Prove mathematical statements involving numbers by applying various proof methods, which are based on the rules of inference from logic; Prove the validity of sequences and series and the correctness or repeated processes by applying mathematical induction; Define and identify the terms, rules, and properties of set theory and use these as tools to support problem solving and reasoning in applications of logic, functions, number theory, sequences, counting, probability, trees and graphs, and automata; Calculate probabilities and apply counting rules; Solve recursive problems by applying knowledge of recursive sequences; Create graphs and trees to represent and help prove or disprove statements, make decisions or select from alternative choices to calculate probabilities, to document derivation steps, or to solve problems; Construct and analyze finite state automata, formal languages, and regular expressions. (Computer Science 202)

Through a progressive series of composition projects, students investigate the sonic organization of musical works and performances, focusing on fundamental questions of unity and variety. Aesthetic issues are considered in the pragmatic context of the instructions that composers provide to achieve a desired musical result, whether these instructions are notated in prose, as graphic images, or in symbolic notation. No formal training is required. Weekly listening, reading, and composition assignments draw on a broad range of musical styles and intellectual traditions, from various cultures and historical periods.

Multimodal Musicianship is an open educational resource for learning music theory and ear training. The content engages concepts related to tonal harmony, suitable for a two- or three-semester music theory and ear training curriculum in a liberal arts college or other higher education setting. This collection of materials offers multiple modes of engaging content—with text, musical examples, audio examples, video content, application activities, and links to supplemental content—designed for users to learn and reinforce their knowledge according to their learning styles and needs.

This collection is the first of five dealing with the rudiments of music.

The basic objective of Unified Engineering is to give a solid understanding of the fundamental disciplines of aerospace engineering, as well as their interrelationships and applications. These disciplines are Materials and Structures (M); Computers and Programming (C); Fluid Mechanics (F); Thermodynamics (T); Propulsion (P); and Signals and Systems (S). In choosing to teach these subjects in a unified manner, the instructors seek to explain the common intellectual threads in these disciplines, as well as their combined application to solve engineering Systems Problems (SP). Throughout the year, the instructors emphasize the connections among the disciplines.

By listening to and looking at the qualities of various scales, students learn to identify the differences between the major, minor, and blues scales.