This is William Shakespeare's full and unabridged play in comic book form. This full colour graphic novel presents "The Scottish Play" just as Shakespeare intended: in its original and unabridged format. Ideal for purists, students and readers who will appreciate the unaltered text. "Macbeth" is probably the most dramatic of Shakespeare's tragedies and this version will give you a brand new and totally fulfilling view of the sheer genius of Shakespeare's story telling. Witchcraft, superstition, murder - it's all here! Featuring stunning artwork, and full of action, atmosphere and intrigue from start to finish; this new treatment of The Bard's wonderful tragedy will have you on the edge of your seat. It's 11th century Scotland. Macbeth, Thane of Glamis, is one of King Duncan's greatest war captains. Upon returning from a battle with the rebellious Thane of Cawdor, Macbeth and Banquo encounter three witches, who prophecy that Macbeth will become Thane of Cawdor and then King. They also prophecy that Banquo will become the father of kings. When Lady Macbeth hears this, she is determined to push her husband to take fate into his own hands and make himself king by murdering Duncan. Macbeth is reluctant to harm Duncan. But, when the King makes arrangements to visit Macbeth's castle, the opportunity presents itself. Pressed on by his wife, Macbeth kills Duncan and blames the King's drunken attendants, who he also kills. However, Macbeth is racked with guilt and begins to see apparitions. When the body is discovered, Malcolm and Donalbain, the King's sons, are suspicious of Macbeth and flee for their lives. To everyone else, it looks as if the sons have been the chief conspirators and Macbeth is crowned King of Scotland. Banquo's suspicions grow, based on his encounter with the witches and Macbeth is wary of the second prophecy concerning Banquoa's offspring. Macbeth hires assassins to kill Banquo and his son, Fleance. Banquo is murdered that night, but Fleance escapes. The bloody ghost of Banquo appears to Macbeth at a feast, tormenting his already guilty conscience. In addition, Macduff, once a comrade of Macbeth, has fled after the King's sons to England, as he also suspects Macbeth. In revenge, Macbeth butchers Macduff's entire household. Macduff and the King's sons raise an army in England and march against Macbeth, who is given another prophecy by the witches, as he prepares for the assault. They tell him his throne is safe until Birnam Wood comes to Dunsinane and he will not die by the hand of any man born of a woman. Macbeth now feels invincible. Lady Macbeth, on the other hand, has been slowly driven mad by her dreams, in the wake of Duncan's murder. She sleepwalks and eventually kills herself. Macbeth learns that many of his lords are deserting and joining Malcolm's army, which approaches Dunsinane under cover of boughs, which they've cut from the trees of Birnam Wood. Macbeth and Macduff eventually meet on the bloody battlefield. Macbeth laughs derisively, relating the witches' prophecy. But Macduff retorts that he was from his mother's womb untimely ripp'd and not (technically) of woman born. The play ends with the death of Macbeth and Malcolm is crowned King of Scotland.

This book is the most extensive contribution to our understanding of the graffiti subculture to date. Using insights from ethnographic research conducted in London and New York, this book explores the varying ways young men use graffiti to construct masculinity, claim power, and establish independence from the institutions which define, and often limit, them as young people. Forging a link between subcultural practice and identity construction, this book will be essential reading for anyone interested in new understandings of youth and their subcultures.

Many, if not all, essential biological processes require selective interactions between proteins. Complex signaling systems require sequential, ordered protein-protein interactions at essentially all levels of the signaling cascade. For example, peptide hormones interact with selective membrane receptor proteins, and autophosphorylation of the receptor then recruits other key regulatory proteins that initiate kinase cascades in which each phosphorylation event requires selective recognition of the protein substrate. The ultimate signaling effect, in many cases, is the regulation of RNA polymerase II-directed transcr- tion in the nucleus, a process that involves numerous, multiprotein complexes important for transcription initiation, elongation, termination, and reinitiation. Defining, characterizing, and understanding the relevance of these protein- protein interactions is an arduous task, but substantial inroads have been made over the past 20 years. The development of more recent methodologies, such as mammalian expression systems, immunopurification schemes, expression cloning strategies, surface plasmon resonance (BiaCore), and nanosequencing technologies, has contributed a wealth of new insights into these complex multiprotein mechanisms and clearly accelerated the discovery process. Arguably, the yeast two-hybrid system has been one of the predominant and most powerful tools in this discovery process.

This book explores how language constructs the meaning and praxis of security in the 21st century. Combining the latest critical theories in poststructuralist and political philosophy with discourse analysis techniques, it uses corpus tools to investigate four collections of documents harvested from national and international security organisations. This interdisciplinary approach provides insights into the ways in which discourse has been mobilised to construct a strategic response to major terrorist attacks and geo-political events. The authors identify the way in which it is used to realize tactics of governmentality and form security as a discipline. This at once constructs a state of exception while also adhering to the principles of liberalism. This insightful study will be of particular interest to students and scholars of subjects such as applied linguistics, political science, security studies and international relations, with additional relevance to other areas including law, criminology, sociology and economics.

The use of computer algebra systems in science and engineering has grown rapidly as more people realize their potential to solve tedious and extensive mathematical problems. REDUCE for Physicists provides a comprehensive introduction to one of the most widely available and simple to use computer algebra systems, focusing primarily on the needs of physicists. As a means of performing symbolic computation, REDUCE reduces tedious manual algebraic calculations and the dangers of casual errors. Each chapter introduces some aspects of REDUCE and illustrates them with applications from various branches of physics including mechanics, dynamics, dimensional analysis, quantum mechanics, and plasma physics. Emphasizing hands-on work with REDUCE to tackle real physical problems, the book includes exercises to test understanding throughout. Students and researchers in the physical sciences and engineering using REDUCE for the first time will find this book an invaluable aid to learning.

This is the complete play which is translated into plain English. Although "The Tempest" was the first play to appear in the first official Folio printing of Shakespeare's plays, it was almost certainly the last play he wrote. It held pride of place in that first collection, presumably because the editors thought it to be his masterpiece; a crowning glory to the career of the most brightest of playwrights. Needless to say, we had to select the very best artists to do it justice, and to bring you the stunning artwork that you've come to expect from our titles. Poignant to the last, this book is a classic amongst classics.

The use of computer algebra systems in science and engineering has grown rapidly as more people realize their potential to solve tedious and extensive mathematical problems. REDUCE for Physicists provides a comprehensive introduction to one of the most widely available and simple to use computer algebra systems, focusing primarily on the needs of physicists. As a means of performing symbolic computation, REDUCE reduces tedious manual algebraic calculations and the dangers of casual errors. Each chapter introduces some aspects of REDUCE and illustrates them with applications from various branches of physics including mechanics, dynamics, dimensional analysis, quantum mechanics, and plasma physics. Emphasizing hands-on work with REDUCE to tackle real physical problems, the book includes exercises to test understanding throughout. Students and researchers in the physical sciences and engineering using REDUCE for the first time will find this book an invaluable aid to learning.

In studying the dynamics of populations, whether of animals, plants or cells, it is crucial to allow for intrinsic delays, due to such things as gestation, maturation or transport. This book is concerned with one of the fundamental questions in the analysis of the effect of delays, namely determining whether they effect the stability of steady states. The analysis is presented for one or two such delays treated both as discrete, where an event which occurred at a precise time in the past has an effect now, and distributed, where the delay is averaged over the population's history. Both of these types occur in biological contexts. The method used to tackle these questions is linear stability analysis which leads to an understanding of the local stability. By avoiding global questions, the author has kept the mathematical prerequisites to a minimum, essentially advanced calculus and ordinary differential equations.

Many, if not all, essential biological processes require selective interactions between proteins. Complex signaling systems require sequential, ordered protein-protein interactions at essentially all levels of the signaling cascade. For example, peptide hormones interact with selective membrane receptor proteins, and autophosphorylation of the receptor then recruits other key regulatory proteins that initiate kinase cascades in which each phosphorylation event requires selective recognition of the protein substrate. The ultimate signaling effect, in many cases, is the regulation of RNA polymerase II-directed transcr- tion in the nucleus, a process that involves numerous, multiprotein complexes important for transcription initiation, elongation, termination, and reinitiation. Defining, characterizing, and understanding the relevance of these protein- protein interactions is an arduous task, but substantial inroads have been made over the past 20 years. The development of more recent methodologies, such as mammalian expression systems, immunopurification schemes, expression cloning strategies, surface plasmon resonance (BiaCore), and nanosequencing technologies, has contributed a wealth of new insights into these complex multiprotein mechanisms and clearly accelerated the discovery process. Arguably, the yeast two-hybrid system has been one of the predominant and most powerful tools in this discovery process.

In studying the dynamics of populations, whether of animals, plants or cells, it is crucial to allow for intrinsic delays, due to such things as gestation, maturation or transport. This book is concerned with one of the fundamental questions in the analysis of the effect of delays, namely determining whether they effect the stability of steady states. The analysis is presented for one or two such delays treated both as discrete, where an event which occurred at a precise time in the past has an effect now, and distributed, where the delay is averaged over the population's history. Both of these types occur in biological contexts. The method used to tackle these questions is linear stability analysis which leads to an understanding of the local stability. By avoiding global questions, the author has kept the mathematical prerequisites to a minimum, essentially advanced calculus and ordinary differential equations.

This is the entire unabridged play brought to life in full colour! Although "The Tempest" was the first play to appear in the first official Folio printing of Shakespeare's plays, it was almost certainly the last play he wrote. It held pride of place in that first collection, presumably because the editors thought it to be his masterpiece; a crowning glory to the career of the most brightest of playwrights. Needless to say, we had to select the very best artists to do it justice, and to bring you the stunning artwork that you've come to expect from our titles. Poignant to the last, this book is a classic amongst classics.

In many biological models it is necessary to allow the rates of change of the variables to depend on the past history, rather than only the current values, of the variables. The models may require discrete lags, with the use of delay-differential equations, or distributed lags, with the use of integro-differential equations. In these lecture notes I discuss the reasons for including lags, especially distributed lags, in biological models. These reasons may be inherent in the system studied, or may be the result of simplifying assumptions made in the model used. I examine some of the techniques available for studying the solution of the equations. A large proportion of the material presented relates to a special method that can be applied to a particular class of distributed lags. This method uses an extended set of ordinary differential equations. I examine the local stability of equilibrium points, and the existence and frequency of periodic solutions. I discuss the qualitative effects of lags, and how these differ according to the choice of discrete or distributed lag. The models studied are drawn from the population dynamiCS of single species (logistic growth, the chemostat) and of interacting pairs of species (predation, mutualism), from cell population dynamiCS (haemopoiesis) and from biochemical kinetics (the Goodwin oscillator). The last chapter is devoted to a population model employing difference equations. All these models include non-linear terms.

This is the full and unabridged play as a graphic novel! 'But soft, what light through yonder window breaks? It is the east and Juliet is the sun'! This title presents the tragic tale of doomed love, set in Verona, Italy, where the Montagues and the Capulets constantly feud and bring unrest to the city. So how could love possibly survive between this pair of star-crossed lovers, Romeo Montague and Juliet Capulet? Only Shakespeare could take such a romantic story and turn it into a soul-searching tragedy.

The entire Shakespeare play - unabridged! "The course of true love never did run smooth;" With its mix of real people who stumble into a fairy kingdom (with it's own problems!) it's little wonder that this play is one of the best loved and most performed of all Shakespeare's masterpieces.

This repackaged book and audio bundle edition of unabridged Macbeth features a soundtrack that has been especially dramatised for Classical Comics, bringing Shakespeare's most famous play vividly to life. Surround yourself in the story as you listen and read along with the full professional cast recording, that includes sound effects and ambience to set the scene. The full colour graphic novel is Classical Comics' best selling title and features stunning artwork to portray the sheer genius of Shakespeare's story telling. Coupled with the audio, it provides a wonderful sensory experience of the most dramatic of The Bard's tragedies.

This book is the most extensive contribution to our understanding of the graffiti subculture to date. Using insights from ethnographic research conducted in London and New York, this book explores the varying ways young men use graffiti to construct masculinity, claim power, and establish independence from the institutions which define, and often limit, them as young people. Forging a link between subcultural practice and identity construction, this book will be essential reading for anyone interested in new understandings of youth and their subcultures.

This repackaged book and audio bundle edition of Romeo & Juliet features a soundtrack that has been especially dramatised for Classical Comics, bringing Shakespeare's most famous tragedy vividly to life. Surround yourself in the story as you listen and read along with the full professional cast recording, that includes sound effects and ambience to set the scene. The leading roles are played by two wonderful young actors: Juliet is played by Anne-Marie Piazza (Annette in the long running radio play The Archers) and Romeo is played by Tom Mison (Lost in Austen and many other West End productions). Juliet Stevenson plays the Nurse and Lady Montague, while Lord and Lady Capulet are played by John Sessions and Patricia Hodge. The full colour graphic novel features stunning artwork and coupled with the audio, it provides a wonderful sensory experience.