This course will present advanced topics in Artificial Intelligence (AI), including inquiries into logic, artificial neural network and machine learning, and the Turing machine. Upon successful completion of this course, students will be able to: define the term 'intelligent agent,' list major problems in AI, and identify the major approaches to AI; translate problems into graphs and encode the procedures that search the solutions with the graph data structures; explain the differences between various types of logic and basic statistical tools used in AI; list the different types of learning algorithms and explain why they are different; list the most common methods of statistical learning and classification and explain the basic differences between them; describe the components of Turing machine; name the most important propositions in the philosophy of AI; list the major issues pertaining to the creation of machine consciousness; design a reasonable software agent with java code. (Computer Science 408)
This course will expand upon SQL as well as other advanced topics, including query optimization, concurrency, data warehouses, object-oriented extensions, and XML. Additional topics covered in this course will help you become more proficient in writing queries and will expand your knowledge base so that you have a better understanding of the field. Upon successful completion of this course, the student will be able to: write complex queries, including full outer joins, self-joins, sub queries, and set theoretic queries; write stored procedures and triggers; apply the principles of query optimization to a database schema; explain the various types of locking mechanisms utilized within database management systems; explain the different types of database failures as well as the methods used to recover from these failures; design queries against a distributed database management system; perform queries against database designed with object-relational extensions; develop and query XML files. (Computer Science 410)
This course is oriented toward US high school students. The course is divided into 10 units of study. The first five units build the foundation of concepts, vocabulary, knowledge, and skills for success in the remainder of the course. In the final five units, we will take the plunge into the domain of inferential statistics, where we make statistical decisions based on the data that we have collected.
This course discusses how to use algebra for a variety of everyday tasks, such as calculate change without specifying how much money is to be spent on a purchase, analyzing relationships by graphing, and describing real-world situations in business, accounting, and science.
This course focuses on the fundamentals of computer algorithms, emphasizing methods useful in practice. Upon successful completion of this course, the student will be able to: explain and identify the importance of algorithms in modern computing systems and their place as a technology in the computing industry; indentify algorithms as a pseudo-code to solve some common problems; describe asymptotic notations for bounding algorithm running times from above and below; explain methods for solving recurrences useful in describing running times of recursive algorithms; explain the use of Master Theorem in describing running times of recursive algorithms; describe the divide-and-conquer recursive technique for solving a class of problems; describe sorting algorithms and their runtime complexity analysis; describe the dynamic programming technique for solving a class of problems; describe greedy algorithms and their applications; describe concepts in graph theory, graph-based algorithms, and their analysis; describe tree-based algorithms and their analysis; explain the classification of difficult computer science problems as belonging to P, NP, and NP-hard classes. (Computer Science 303)
The ĺÎĺ_ĺĚĄ_American Renaissance,ĺÎĺ_ĺĚĺÎĺ a period of tremendous literary activity that took place in America between the 1830s and 1860s represents the cultivation of a distinctively American literature. The student will begin this course by looking at what it was in American culture and society that led to the dramatic outburst of literary creativity in this era. The student will then explore some of the periodĺÎĺ_ĺĚĺ_s most famous works, attempting to define the emerging American identity represented in this literature. Upon successful completion of this course, the student will be able to: discriminate among the key economic, technological, social, and cultural transformations underpinning the American Renaissance; define the transformations in American Protestantism exemplified by the second Great Awakening and transcendentalism; list the key tenets of transcendentalism and relate them to romanticism more broadly and to social and cultural developments in the antebellum United States; analyze EmersonĺÎĺ_ĺĚĺ_s place in defining transcendentalism and his key differences from other transcendentalists; analyze competing conceptualizations of poetry and its construction and purpose, with particular attention to Poe, Emerson, and Whitman; define the formal innovations of Dickinson and their relationship to her central themes; describe the emergence of the short story as a form, with reference to specific stories by Hawthorne and Poe; distinguish among forms of the novel, with reference to specific works by Hawthorne, Thompson, and Fern; analyze the ways that writers such as Melville, Brownson, Davis, and Thoreau saw industrialization and capitalism as a threat to U. S. society; develop the relationship between ThoreauĺÎĺ_ĺĚĺ_s interest in nature and his political commitments and compare and contrast his thinking with Emerson and other transcendentalists; analyze the different ways that sentimentalism constrained and empowered women writers to critique gender conventions, with reference to specific works by writers such as Fern, Alcott, and Stowe; define the ways that the slavery question influenced major texts and major controversies over literature during this period. This free course may be completed online at any time. (English Literature 405)
This course is an exploration of visual art forms and their cultural connections for the student with little experience in the visual arts. It includes a brief study of art history, and in-depth studies of the elements, media, and methods used in creative thought and processes. It is the only resource I have found that approximates techniques, media, and an overview of different processes that is usually the first half of a printed text on art appreciation or an introduction to art. This is geared toward an undergraduate, lower-level student population. The art history survey is inadequate, but combined with another source, like Boundless' art history, this can be a complete text for an Art 100 course.
- Arts and Humanities
- Material Type:
- Unit of Study
- The Saylor Foundation
- Afshan Bokhari
- Amy Gansell
- Andrew E. Hershberger
- Andrew Marvick
- Anne Bertrand-Dewsnap
- Denise Rogers
- Hilda Werschkul
- Jelena Bogdanovic
- Jennifer Palinkas
- Jill Kiefer
- Lynn E. Roller
- Marjorie Munsterberg
- Michelle Greet
- Shaoqian Zhang
- Tracy Musacchio
- William V. Ganis
- Date Added:
This course is an exploration of visual art forms and their cultural connections for the student with little experience in the visual arts. It includes a brief study of art history and in depth studies of the elements, media, and methods used in creative processes and thought. Upon successful completion of this course, students will be able to: interpret examples of visual art using a five-step critical process that includes description, analysis, context, meaning, and judgment; identify and describe the elements and principles of art; use analytical skills to connect formal attributes of art with their meaning and expression; explain the role and effect of the visual arts in societies, history, and other world cultures; articulate the political, social, cultural, and aesthetic themes and issues that artists examine in their work; identify the processes and materials involved in art and architectural production; utilize information to locate, evaluate, and communicate information about visual art in its various forms. Note that this course is an alternative to the Saylor FoundationĺÎĺ_ĺĚĺ_s ARTH101A and has been developed through a partnership with the Washington State Board for Community and Technical Colleges; the Saylor Foundation has modified some WSBCTC materials. This free course may be completed online at any time. (Art History 101B)
This course includes materials on AI programming, logic, search, game playing, machine learning, natural language understanding, and robotics, which will introduce the student to AI methods, tools, and techniques, their application to computational problems, and their contribution to understanding intelligence. The material is introductory; the readings cite many resources outside those assigned in this course, and students are encouraged to explore these resources to pursue topics of interest. Upon successful completion of this course, the student will be able to: Describe the major applications, topics, and research areas of artificial intelligence (AI), including search, machine learning, knowledge representation and inference, natural language processing, vision, and robotics; Apply basic techniques of AI in computational solutions to problems; Discuss the role of AI research areas in growing the understanding of human intelligence; Identify the boundaries of the capabilities of current AI systems. (Computer Science 405)
This is a free textbook offered by Saylor Foundation. The Basics of General, Organic, and Biological Chemistry by David W. Ball, John W. Hill, and Rhonda J. Scott is a new textbook offering for the one-semester GOB Chemistry course. The authors designed this book from the ground up to meet the needs of a one-semester course. It is 20 chapters in length and approximately 350-400 pages; just the right breadth and depth for instructors to teach and students to grasp. In addition, The Basics of General, Organic, and Biological Chemistry is written not by one chemist, but THREE chemistry professors with specific, complimentary research and teaching areas. David W. Ball’s specialty is physical chemistry, John W. Hill’s is organic chemistry, and finally, Rhonda J. Scott’s background is in enzyme and peptide chemistry. These three authors have the expertise to identify and present only the most important material for students to learn in the GOB Chemistry course.
This course is also intended to provide the student with a strong foundation for intermediate algebra and beyond. Upon successful completion of this course, you will be able to: simplify and solve linear equations and expressions including problems with absolute values and applications; solve linear inequalities; find equations of lines; and solve application problems; add, subtract, multiply, and divide various types of polynomials; factor polynomials, and simplify square roots; evaluate, simplify, multiply, divide, add, and subtract rational expressions, and solve basic applications of rational expressions. This free course may be completed online at any time. It has been developed through a partnership with the Washington State Board for Community and Technical Colleges; the Saylor Foundation has modified some WSBCTC materials. (Mathematics 001)
Law, in its simplest form, is used to protect one party from another. For instance, laws protect customers from being exploited by companies. Laws protect companies from other companies. Laws even protect citizens and corporations from the government. However, law is neither perfect nor all encompassing. This course will introduce the student to the laws and ethical standards that managers must abide by in the course of conducting business. Laws and ethics almost always shape a company's decision-making process; a bank cannot charge any interest rate it wants to charge that rate must be appropriate. By the end of this course, the student will have a clear understanding of the legal and ethical environment in which businesses operate. Upon successful completion of this course, the student will be able to: Identify sources of law in the United States; Describe the function and role of courts in the US legal system; Differentiate litigation from methods of alternative dispute resolution; List the elements of the major torts; List the essential elements of a valid contract; Describe how a contract can fail; Summarize the remedies available for breach of contract; Distinguish between real and personal property; Identify the various interests in real property and how they pass; Identify the requirements to hold various rights under intellectual property laws; Analyze the impact of the digital era on intellectual property rights; Distinguish between at-will employment and contractual employment; Identify laws that generally regulate the employer-employee relationship; Identify criminal acts related to the business world; Define white collar crime; Describe the various forms of business organization; Identify the major laws regulating business in the United States; Identify major ethical concerns in business today. (Business Administration 205)
This textbook is used for all sections of Business Law 1 (BA 207) and Business Law 2 (BA 208) at Grand Rapids Community College. It provides context and essential concepts across the entire range of legal issues with which managers and business executives must grapple. The text provides the vocabulary and legal acumen necessary for businesspeople to talk in an educated way to their customers, employees, suppliers, government officials—and to their own lawyers.
Introductory survey of quantitative methods (QM), or the application of statistics in the workplace. Examines techniques for gathering, analyzing, and interpreting data in any number of fieldsĺÎĺ from anthropology to hedge fund management.
The student will learn the mechanics of editing and compiling a simple program written in C++ beginning with a discussion of the essential elements of C++ programming: variables, loops, expressions, functions, and string class. Next, the student will cover the basics of object-oriented programming: classes, inheritance, templates, exceptions, and file manipulation. The student will then review function and class templates and the classes that perform output and input of characters to/from files. This course will also cover the topics of namespaces, exception handling, and preprocessor directives. In the last part of the course, the student will learn some slightly more sophisticated programming techniques that deal with data structures such as linked lists and binary trees. Upon successful completion of this course, students will be able to: Compile and execute code written in C++ language; Work with the elementary data types and conditional and iteration structures; Define and use functions, pointers, arrays, struct, unions, and enumerations; Write C++ using principles of object-oriented programming; Write templates and manipulate the files; Code and use namespaces, exceptions, and preprocessor instructions; Write a code that represents linked lists and binary trees; Translate simple word problems into C++ language. (Computer Science 107)
This course begins with a review of algebra specifically designed to help and prepare the student for the study of calculus, and continues with discussion of functions, graphs, limits, continuity, and derivatives. The appendix provides a large collection of reference facts, geometry, and trigonometry that will assist in solving calculus problems long after the course is over. Upon successful completion of this course, the student will be able to: calculate or estimate limits of functions given by formulas, graphs, or tables by using properties of limits and LĺÎĺ_ĺĚĺ_hopitalĺÎĺ_ĺĚĺ_s Rule; state whether a function given by a graph or formula is continuous or differentiable at a given point or on a given interval and justify the answer; calculate average and instantaneous rates of change in context, and state the meaning and units of the derivative for functions given graphically; calculate derivatives of polynomial, rational, common transcendental functions, and implicitly defined functions; apply the ideas and techniques of derivatives to solve maximum and minimum problems and related rate problems, and calculate slopes and rates for function given as parametric equations; find extreme values of modeling functions given by formulas or graphs; predict, construct, and interpret the shapes of graphs; solve equations using NewtonĺÎĺ_ĺĚĺ_s Method; find linear approximations to functions using differentials; festate in words the meanings of the solutions to applied problems, attaching the appropriate units to an answer; state which parts of a mathematical statement are assumptions, such as hypotheses, and which parts are conclusions. This free course may be completed online at any time. It has been developed through a partnership with the Washington State Board for Community and Technical Colleges; the Saylor Foundation has modified some WSBCTC materials. (Mathematics 005)
This course introduces the compilation process, presenting foundational topics on formal languages and outline each of the essential compiler steps: scanning, parsing, translation and semantic analysis, code generation, and optimization. Upon successful completion of this course, the student will be able to: describe the compilation process and explain the function of the components that comprise the structure of a compiler; apply concepts of formal languages and finite-state machines to the translation of computer languages; identify the compiler techniques, methods, and tools that are applicable to other software applications; describe the challenges and state-of-the-practice of compiler theory and practice. This free course may be completed online at any time. (Computer Science 304)
The purpose of this course is to cultivate an understanding of modern computing technology through an in-depth study of the interface between hardware and software. The student will study the history of modern computing technology before learning about modern computer architecture, then the recent switch from sequential processing to parallel processing. Upon completion of this course, students will be able to: identify important advances that have taken place in the history of modern computing and discuss some of the latest trends in computing industry; explain how programs written in high-level programming language, such as C or Java, can be translated into the language of the hardware; describe the interface between hardware and software and explain how software instructs hardware to accomplish desired functions; demonstrate an understanding of the process of carrying out sequential logic design; demonstrate an understanding of computer arithmetic hardware blocks and floating point representation; explain how a hardware programming language is executed on hardware and how hardware and software design affect performance; demonstrate an understanding of the factors that determine the performance of a program; demonstrate an understanding of the techniques that designers use to improve the performance of programs running on hardware; demonstrate an understanding of the importance of memory hierarchy in computer design and explain how memory design impacts overall hardware performance; demonstrate an understanding of storage and I/O devices, their performance measurement, and redundant array of inexpensive disks (more commonly referred to by the acronym RAID) technology; list the reasons for and the consequences of the recent switch from sequential processing to parallel processing in hardware manufacture and explain the basics of parallel programming. (Computer Science 301)
Detailed introduction to the basic hardware and software, architectural components for computer communications in local area networks. The components that are focused upon include understanding the basics of computer networks, switching, routing, protocols and security.
The introduction of Business Communication for Success, the textbook used throughout this course, notes that Ň[E]ffective communication takes preparation, practice, and persistence. There are many ways to learn communication skills; the school of experience, or Ôhard knocks,Ő is one of them. But in the business environment, a ÔknockŐ (or lesson learned) may come at the expense of your credibility through a blown presentation to a client.Ó Effective communication skills are a prerequisite for succeeding in business. Communication tools and activities connect people within and beyond the organization in order to establish the businessŐs place in the corporate community and the social community, and as a result, that communication needs to be consistent, effective, and customized for the business to prosper. Business Communication for Success provides theories and practical information that represent the heart of this course, while additional resources are included to expand or pose alternatives to the approaches chosen in the textbook. You will receive maximum benefits from this course if you complete the readings first and then use the additional resources to fill in the blanks and/or reconsider the topics in the textbook.
Crisis communication is one of the many specialized areas or functions of public relations. This course will specifically focus on the use of crisis communication to protect and defend a company or organization facing a problem or challenge that threatens to harm its brand or reputation. As a sudden and unexpected serious event, a crisis can fall into four categories: acts of God, mechanical problems, human error, and management decision or indecision. You may recall examples of crisis in news media coverage of killer earthquakes and tsunamis, grounded airplanes, stranded cruise ship passengers, and senior government officials or CEOs who are fired or asked to resign following adulterous affairs. If you want to learn to become a professional public relations specialist, it is important to have a basic understanding of the important role public relations has in helping guide a company or organization through a crisis or serious event.
This course introduces cryptography by addressing topics such as ciphers that were used before World War II, block cipher algorithms, the advanced encryption standard for a symmetric-key encryption adopted by the U.S. government, MD5 and SHA-1 hash functions, and the message authentication code. The course will focus on public key cryptography (as exemplified by the RSA algorithm), elliptic curves, the Diffie-Hellman key exchange, and the elliptic curve discrete logarithm problem. The course concludes with key exchange methods, study signature schemes, and discussion of public key infrastructure. Note: It is strongly recommended that you complete an abstract algebra course (such as the Saylor FoundationĺÎĺ_ĺĚĺ_s MA231) before taking this course. Upon successful completion of this course, students will be able to: explain how symmetric and asymmetric key ciphers work; list and define cryptographyĺÎĺ_ĺĚĺ_s goals; list and define the most common classical ciphers; explain the workings of mechanical ciphers Enigma and Lorenz; describe the principles of substitution-permutation networks; describe the algorithms for data encryption and the advanced encryption standard; describe and use the MD5 and SHA-1 hash functions; explain the idea behind public key cryptography; use the RSA cryptography system by applying it to practical problems; test whether the large integer is prime with the mathematical tools presented in this course; define the elliptic curve and use it in cryptography; explain the Diffie-Hellman key exchange; describe the most common signature and autokey identity schemes; describe the conceptual workings of public key infrastructure. This free course may be completed online at any time. (Computer Science 409)
This is the capstone course in the Saylor Customer Service certificate program. The courses included in this program are designed to prepare students for the professional world of customer service. These certificate program courses provide a solid knowledge base in the areas of computer skills, business communications, and best customer service practices.
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)
This textbook, Economics: Theory Through Applications, centers around student needs and expectations through two premises: … Students are motivated to study economics if they see that it relates to their own lives. … Students learn best from an inductive approach, in which they are first confronted with a problem, and then led through the process of solving that problem.
Many books claim to present economics in a way that is digestible for students; Russell and Andrew have truly created one from scratch. This textbook will assist you in increasing students’ economic literacy both by developing their aptitude for economic thinking and by presenting key insights about economics that every educated individual should know.
This books lays the foundation for prospective teachers to learn about various teaching methodologies and covers material typically found in many teacher training programs. Chapters in the text can be assigned either from beginning to end, as with a conventional printed book, or they can be selected in some other sequence to meet the needs of particular students or classes. In general the first half of the book focuses on broader questions and principles taken from psychology per se, and the second half focuses on somewhat more practical issues of teaching. But the division between “theory” and “practice” is only approximate; all parts of the book draw on research, theory, and practical wisdom wherever appropriate. Chapter 2 is about learning theory, and Chapter 3 is about development; but as we point out, these topics overlap with each other as well as with the concerns of daily teaching. Chapter 4 is about several forms of student diversity (what might be called individual differences in another context), and Chapter 5 is about one form of diversity that has become prominent in schools recently—students with disabilities. Chapter 6 is about motivation, a topic that is heavily studied by psychological researchers, but that also poses perennial challenges to classroom teachers.
In this course, the student will learn the theoretical and practical aspects of algorithms and Data Structures. The student will also learn to implement Data Structures and algorithms in C/C++, analyze those algorithms, and consider both their worst-case complexity and practical efficiency. Upon successful completion of this course, students will be able to: Identify elementary Data Structures using C/C++ programming languages; Analyze the importance and use of Abstract Data Types (ADTs); Design and implement elementary Data Structures such as arrays, trees, Stacks, Queues, and Hash Tables; Explain best, average, and worst-cases of an algorithm using Big-O notation; Describe the differences between the use of sequential and binary search algorithms. (Computer Science 201)
This course promotes clear and effective communication by sharpening critical thinking and writing skills. The first unit is designed to change the way in which students think about writing--as a conversation rather than a solitary act. The second unit focuses on academic writing and explores the PWR-Writing or Power-Writing Method (PWR Pre-Write, Write, Revise). The remaining units will focus on the minutiae of good writing practices, from style to citation methodology. Upon successful completion of this course, the student will be able to: Demonstrate mastery of principles of grammar, usage, mechanics, and sentence structure. Identify the thesis in another individual's essay. Develop a thesis statement, structure it in an introductory paragraph, and support it with the body of the essay. Organize ideas logically within an essay, deploying adequate transitional devices to ensure coherence, flow, and focus. Differentiate between rhetorical strategies and write with an awareness of rhetorical technique and audience. Differentiate between tones and write with an awareness of how tone affects the audience's experience. Demonstrate critical and analytical thinking for reading and writing purposes. Quote, paraphrase, and document the work of others. Write sentences that vary in length and structure. (English 001)
This resource provides description on entrepreneurship development, and elucidates on the strategies of Small Business Management in the 21st Century.
Essentials of Geographic Information Systems integrates key concepts behind the technology with practical concerns and real-world applications. Recognizing that many potential GIS users are nonspecialists or may only need a few maps, this book is designed to be accessible, pragmatic, and concise. Essentials of Geographic Information Systems also illustrates how GIS is used to ask questions, inform choices, and guide policy. From the melting of the polar ice caps to privacy issues associated with mapping, this book provides a gentle, yet substantive, introduction to the use and application of digital maps, mapping, and GIS.
This course will provide the student with an overview of the role that ethical, cultural, religious, and moral principles play in public policy. The course will introduce the student to common themes found in the foundational theories of ethics and morality in politics such as justice, equality, fairness, individual liberty, free enterprise, charity, fundamental human rights, and minimizing harm to others. These themes are integrated into various decision-making models that you will learn about. Students will examine five types of decision frameworks used to make and implement public policy, as well as rationales used to justify inequitable impact and outcomes of policies. Upon successful completion of this course, students will be able to: explain how personal morality and ethics impact the policymaking process; discuss various ethical frameworks used to resolve policy dilemmas; identify statutes, ethical codes, and legal opinions that define the normative parameters of key domestic and international policy issues; assess the impact that public interest groups have on policymaking and execution of policies. (Political Science 401)
This course will examine the main focus that unites existentialists, "existence." Particularly, it will examine the concrete existence of individual human beings. Major figures or study will be, Blaise Pascal, Sóren Kierkegaard, Fyodor Dostoevsky, Friedrich Nietzsche, Martin Heidegger, Jean-Paul Sartre, Simone de Beauvoir, and Albert Camus.
In this course, you will cover some of the most basic math applications, like decimals, percents, and even fractions. You will not only learn the theory behind these topics, but also how to apply these concepts to your life. You will learn some basic mathematical properties, such as the reflexive property, associative property, and others. The best part is that you most likely already know them, even if you did not know the proper mathematical terminology.
This survey chemistry course is designed to introduce students to the world of chemistry. In this course, we will study chemistry from the ground up, learning the basics of the atom and its behavior. We will apply this knowledge to understand the chemical properties of matter and the changes and reactions that take place in all types of matter. Upon successful completion of this course, students will be able to: Define the general term 'chemistry.' Distinguish between the physical and chemical properties of matter. Distinguish between mixtures and pure substances. Describe the arrangement of the periodic table. Perform mathematical operations involving significant figures. Convert measurements into scientific notation. Explain the law of conservation of mass, the law of definite composition, and the law of multiple proportions. Summarize the essential points of Dalton's atomic theory. Define the term 'atom.' Describe electron configurations. Draw Lewis structures for molecules. Name ionic and covalent compounds using the rules for nomenclature of inorganic compounds. Explain the relationship between enthalpy change and a reaction's tendency to occur. (Chemistry 101; See also: Biology 105. Mechanical Engineering 004)
The overall goal of the authors with General Chemistry: Principles, Patterns, and Applications was to produce a text that introduces the students to the relevance and excitement of chemistry.Although much of first-year chemistry is taught as a service course, Bruce and Patricia feel there is no reason that the intrinsic excitement and potential of chemistry cannot be the focal point of the text and the course. So, they emphasize the positive aspects of chemistry and its relationship to studentsŐ lives, which requires bringing in applications early and often. In addition, the authors feel that many first year chemistry students have an enthusiasm for biologically and medically relevant topics, so they use an integrated approach in their text that includes explicit discussions of biological and environmental applications of chemistry.
In this course, you will study the relationships between lines and angles. You will learn to calculate how much space an object covers, determine how much space is inside of a three-dimensional object, and other relationships between shapes, objects, and the mathematics that govern them.
Detailed exploration of contemporary debates and controversies regarding global justice. Topics include: human rights theory, the moral significance of national and cultural boundaries, the currency of distributive justice, global inequality and poverty, environmental devastation, and violence against women and children.
This course will focus on the emergence and evolution of industrial societies around the world. The student will begin by comparing the legacies of industry in ancient and early modern Europe and Asia and examining the agricultural and commercial advances that laid the groundwork for the Industrial Revolution. The student will then follow the history of industrialization in different parts of the world, taking a close look at the economic, social, and environmental effects of industrialization. This course ultimately examines how industrialization developed, spread across the globe, and shaped everyday life in the modern era. Upon successful completion of this course, students will be able to: identify key ideas and events in the history of industrialization; identify connections between the development of capitalism and the development of modern industry; use analytical tools to evaluate the factors contributing to industrial change in different societies; identify the consequences of industrialization in the 19th and 20th centuries in different societies; critique historical interpretations of the causes and effects of industrialization; and analyze and interpret primary source documents describing the process of industrialization and life in industrial societies. (History 363)
The 3-Circle model was developed over the past several years, initially in strategic planning for a university graduate program and in an executive MBA course designed to integrate the concepts ofmarketing and competitive strategy. Over the course of time, the 3-Circle model has beensuccessfully used by hundreds of organizations throughout the world in establishing and growing their market positions. Many of the case examples in this book demonstrating applications of the 3-Circle model applications are from executives who have attended executive education training at the University of Notre Dame.