Use the quick-start guide to create your course in a flash Post course materials, give quizzes, facilitate discussions, and handle grades You're an educator, not a psychic, so how would you know how to use Blackboard with no instructions? These step-by-step examples show you how to set up a Blackboard classroom, put your materials on the Internet, communicate online with students, and even evaluate their performance. Discover how to * Navigate the Blackboard environment * Customize your course menu * Add and organize course materials * Give online assignments * Conduct online discussions and chat rooms * Keep track of grades
A captivating meditation on education from the author of The Yellow-Lighted Bookshop In Blackboard, Lewis Buzbee looks back over a lifetime of experiences in schools and classrooms, from kindergarten to college and beyond. He offers fascinating histories of the key ideas informing educational practice over the centuries, which have shaped everything from class size to the layout of desks and chairs. Buzbee deftly weaves his own biography into this overview, approaching his subject as a student, a father, and a teacher. In so doing, he offers a moving personal testament to how he, "an average student" in danger of flunking out of high school, became the first in his family to graduate from college. He credits his success to the well-funded California public school system and bemoans the terrible price that state is paying as a result of funding being cut from today's budgets. For Buzbee, the blackboard is a precious window into the wider world, which we ignore at our peril. "Both anecdotal and eloquent, The Yellow-Lighted Bookshop is a tribute to those who crave the cozy confines of a bookshop, a place to be ‘alone among others' and savor a bountiful literary buffet." —Booklist (starred review)
Join Sadie as she explores her world and counts everyday treasures along the way. Help your child take the first step toward literacy by introducing tactile and visual symbols that represent common objects. --publisher.
The New York City Teachers Union shares a deep history with the American left, having participated in some of its most explosive battles. Established in 1916, the union maintained an early, unofficial partnership with the American Communist Party, winning key union positions and advocating a number of Party goals. Clarence Taylor recounts this pivotal relationship and the backlash it created, as the union threw its support behind controversial policies and rights movements. Taylor's research reaffirms the party's close ties with the union—yet it also makes clear that the organization was anything but a puppet of Communist power. Reds at the Blackboard showcases the rise of a unique type of unionism that would later dominate the organizational efforts behind civil rights, academic freedom, and the empowerment of blacks and Latinos. Through its affiliation with the Communist Party, the union pioneered what would later become social movement unionism, solidifying ties with labor groups, black and Latino parents, and civil rights organizations to acquire greater school and community resources. It also militantly fought to improve working conditions for teachers while championing broader social concerns. For the first time, Taylor reveals the union's early growth and the somewhat illegal attempts by the Board of Education to eradicate the group. He describes how the infamous Red Squad and other undercover agents worked with the board to bring down the union and how the union and its opponents wrestled with charges of anti-Semitism.
A photographic exploration of mathematicians’ chalkboards “A mathematician, like a painter or poet, is a maker of patterns,” wrote the British mathematician G. H. Hardy. In Do Not Erase, photographer Jessica Wynne presents remarkable examples of this idea through images of mathematicians’ chalkboards. While other fields have replaced chalkboards with whiteboards and digital presentations, mathematicians remain loyal to chalk for puzzling out their ideas and communicating their research. Wynne offers more than one hundred stunning photographs of these chalkboards, gathered from a diverse group of mathematicians around the world. The photographs are accompanied by essays from each mathematician, reflecting on their work and processes. Together, pictures and words provide an illuminating meditation on the unique relationships among mathematics, art, and creativity. The mathematicians featured in this collection comprise exciting new voices alongside established figures, including Sun-Yung Alice Chang, Alain Connes, Misha Gromov, Andre Neves, Kasso Okoudjou, Peter Shor, Christina Sormani, Terence Tao, Claire Voisin, and many others. The companion essays give insights into how the chalkboard serves as a special medium for mathematical expression. The volume also includes an introduction by the author, an afterword by New Yorker writer Alec Wilkinson, and biographical information for each contributor. Do Not Erase is a testament to the myriad ways that mathematicians use their chalkboards to reveal the conceptual and visual beauty of their discipline—shapes, figures, formulas, and conjectures created through imagination, argument, and speculation.
Blackboard Architectures and Applications focuses on studies done on blackboard architecture in the industries and academe. Particularly given value is the role this paradigm plays in distributed problem solving, parallelism, and intelligent real-time systems. Composed of 21 chapters, the book contains the literature of authors who have diligently conducted studies on this concern. The book starts by discussing the blackboard model of problem solving, including control and organization, wherein goal relationships and their use in blackboard architecture are noted. Also given attention are BBI basic control loop, an empirical comparison of explicit and implicit control architectures, and the dynamic integration of reasoning methods. The book then proceeds with discussions on the concurrency and parallelism of advanced architectures. Taken into consideration include design alternatives for parallel and distributed blackboard systems; the parallelization of blackboard architectures and the Agora system; and a comparison of the cage system and polygon architecture. Real-time blackboard architecture systems are also explored. This part contains experiments, frameworks, and methods designed to approximate processing in real-time problem solving. The text also points at developments in blackboard systems. Given attention are the architecture of ATOME, performance of GBB, the Erasmus system, and the use of blackboard system for distributed problem solving. The book finally focuses on object-oriented blackboard architecture for model-based diagnostic reasoning; dynamic instructional planning in the BB1 architecture; and consideration of blackboard model for cockpit information management. The book is a vital source of data for those wanting to explore the potential of artificial intelligence.
