Toward a History of the Democratic State

Over the past generation, the history of the state has been experiencing a much-noted renaissance, especially in France and the United States. In the United States as late as 1986, Morton Keller complained to William Leuchtenburg in the Journal of American History: “To say that ‘there is much still to be learned about the nature of the State in America’ is … a major understatement. There is close to everything to be learned about the State.” In France as late as 1990, Pierre Rosanvallon’s powerful introduction to L’État en France suggested that an ambitious history of the state could not yet be written because of the lack of works focused specifically on the state. As he put it, “L’État comme problème politique, ou comme phénomène bureaucratique, est au coeur des passions partisanes et des débats philosophiques tout en restant une sorte de non-objet historique.” As the essays in this volume attest, much has changed in the historiography of the American and French states in the intervening 25 years. The state has indeed been brought “back in” in Theda Skocpol’s influential words. In fact, the return of the state in history, theory, and the social sciences in both France and the United States has been so strong and successful, that the subject of “the state/l’État” has again itself become an intellectual crossroads—and a contested terrain—for new important debates and controversies concerning the French and American past more generally

Beyond Stateless Democracy

Pierre Bourdieu began his posthumously published lectures “On the State” by highlighting the three dominant traditions that have framed most thinking about the state in Western social science and modern social theory. On the one hand, he highlighted what he termed the “initial definition” of the state as a “neutral site” designed to regulate conflict and “serve the common good.” Bourdieu traced this essentially classical liberal conception of the state back to the pioneering political treatises of Thomas Hobbes and John Locke.1 In direct response to this “optimistic functionalism,” Bourdieu noted the rise of a critical and more “pessimistic” alternative—something of a diametric opposite

Democratic States of Unexception: Towards a New Genealogy of the American Political

This chapter takes issue with the history and theory of exception along these three lines. The first section offers a critique of the idea of law at the heart of the theory of exception. By taking a closer look at the history and theory of law in early nineteenth-century America, it offers an alternative reading of the role of exception in Emerson’s America – a place and time in which the exception in law was anything but exceptional. The second section offers a critique of the idea of state and sovereignty at the heart of the theory of exception in the early twentieth century. In place of Schmitt’s concept of the political, it offers a reconsideration of John Dewey’s more democratic conception of “the public” and its problems, where again the exception is an unexceptional part of an everyday and agonistic democratic politics. The third section moves us further into the twentieth century, challenging the suzerainty of both liberal and neoliberal characterizations of exception and totalitarianism in that ideologically charged period. Here, Charles Merriam’s ideas about new democracy and new despotism provide an alternative reference point for thinking about the exception, its antidemocratic dangers, and its democratic possibilities. In the context of a revitalized theory of the nature of power in democratic states, the exception does not appear so exceptional. Indeed, when viewed from the perspective of democratic state history, the exception may be one of the most common ways that democratic states exercise power every day. Evaluating the state of exception from the critical perspective of the modern democratic state exposes the limits of the notions of formal law, bureaucratic statecraft, and liberal politics that so frequently preoccupy discussions of exception and emergency governance. Those rather profound limitations suggest the need for an alternative genealogy of the political. In the theories of law, state, and politics in the writings of Emerson, Dewey, and Merriam, this essay proposes a tentative new genealogy of the modern American political – where democracy is not a problem but a solution and where the exception is not exceptional but one of the most quotidian ways of exercising power in agonistic modes of self-government

Social Freedom, Democracy and the Political: Three Reflections on Axel Honneth\u27s Idea of Socialism

Axel Honneth’s Idea of Socialism is an important clarion call for an urgent rethinking of the possibilities of a socialism for the twenty-first century. One of the most surprising and satisfying aspects of Axel Honneth’s timely new book is its recovery of the continued vitality of John Dewey’s pragmatic democratic philosophy. These reflections on Honneth’s use of John Dewey for democratizing social freedom, take stock of and explore the political limits of Honneth’s social reconstruction

Breakdown Of The Laminar Flow Regime In Permeable-walled Ducts

The stability of laminar flow in a parallel-plate channel having one permeable bounding wall is investigated by means of linear theory. The analysis lakes account of the coupling of the disturbance, fields in the channel and in the permeable material and of velocity slip at the surface of the permeable wall. Complementary experiments are performed in which the breakdown of the laminar regime in flat rectangular ducts is identified from pressure-drop measurements and from flow visualization studies. The experiments cover the range of slip velocities from 15-30 percent of the mean velocity and, in addition, the case of zero slip (impermeable walls). In the slip range of the experiments, the instability Reynolds number results of both analysis and experiment lie below the corresponding values for the case of the impermeable-walled duct. Furthermore, in this range, the instability Reynolds numbers are rather insensitive to variations in the slip velocity. Quantitative agreement between analysis and experiment was found to be somewhat belter in the slip range than for the impermeable-walled duct. © 1973 by ASME

Direct transition to high-dimensional chaos through a global bifurcation

In the present work we report on a genuine route by which a high-dimensional (with d>4) chaotic attractor is created directly, i.e., without a low-dimensional chaotic attractor as an intermediate step. The high-dimensional chaotic set is created in a heteroclinic global bifurcation that yields an infinite number of unstable tori.The mechanism is illustrated using a system constructed by coupling three Lorenz oscillators. So, the route presented here can be considered a prototype for high-dimensional chaotic behavior just as the Lorenz model is for low-dimensional chaos.Comment: 7 page

Psi-series solutions of the cubic H\'{e}non-Heiles system and their convergence

The cubic H\'enon-Heiles system contains parameters, for most values of which, the system is not integrable. In such parameter regimes, the general solution is expressible in formal expansions about arbitrary movable branch points, the so-called psi-series expansions. In this paper, the convergence of known, as well as new, psi-series solutions on real time intervals is proved, thereby establishing that the formal solutions are actual solutions

Ubc9p and the conjugation of SUMO-1 to RanGAP1 and RanBP2

AbstractThe yeast UBC9 gene encodes a protein with homology to the E2 ubiquitin-conjugating enzymes that mediate the attachment of ubiquitin to substrate proteins [1]. Depletion of Ubc9p arrests cells in G2 or early M phase and stabilizes B-type cyclins [1]. p18Ubc9, the Xenopus homolog of Ubc9p, associates specifically with p88RanGAP1 and p340RanBP2[2]. Ran-binding protein 2 (p340RanBP2) is a nuclear pore protein [3,4], and p88RanGAP1 is a modified form of RanGAP1, a GTPase-activating protein for the small GTPase Ran [2]. It has recently been shown that mammalian RanGAP1 can be conjugated with SUMO-1, a small ubiquitin-related modifier [5–7], and that SUMO-1 conjugation promotes RanGAP1's interaction with RanBP2 [2,5,6]. Here we show that p18Ubc9 acts as an E2-like enzyme for SUMO-1 conjugation, but not for ubiquitin conjugation. This suggests that the SUMO-1 conjugation pathway is biochemically similar to the ubiquitin conjugation pathway but uses a distinct set of enzymes and regulatory mechanisms. We also show that p18Ubc9 interacts specifically with the internal repeat domain of RanBP2, which is a substrate for SUMO-1 conjugation in Xenopus egg extracts

Sonic Booms in Atmospheric Turbulence (SonicBAT): The Influence of Turbulence on Shaped Sonic Booms

The objectives of the Sonic Booms in Atmospheric Turbulence (SonicBAT) Program were to develop and validate, via research flight experiments under a range of realistic atmospheric conditions, one numeric turbulence model research code and one classic turbulence model research code using traditional N-wave booms in the presence of atmospheric turbulence, and to apply these models to assess the effects of turbulence on the levels of shaped sonic booms predicted from low boom aircraft designs. The SonicBAT program has successfully investigated sonic boom turbulence effects through the execution of flight experiments at two NASA centers, Armstrong Flight Research Center (AFRC) and Kennedy Space Center (KSC), collecting a comprehensive set of acoustic and atmospheric turbulence data that were used to validate the numeric and classic turbulence models developed. The validated codes were incorporated into the PCBoom sonic boom prediction software and used to estimate the effect of turbulence on the levels of shaped sonic booms associated with several low boom aircraft designs. The SonicBAT program was a four year effort that consisted of turbulence model development and refinement throughout the entire period as well as extensive flight test planning that culminated with the two research flight tests being conducted in the second and third years of the program. The SonicBAT team, led by Wyle, includes partners from the Pennsylvania State University, Lockheed Martin, Gulfstream Aerospace, Boeing, Eagle Aeronautics, Technical & Business Systems, and the Laboratory of Fluid Mechanics and Acoustics (France). A number of collaborators, including the Japan Aerospace Exploration Agency, also participated by supporting the experiments with human and equipment resources at their own expense. Three NASA centers, AFRC, Langley Research Center (LaRC), and KSC were essential to the planning and conduct of the experiments. The experiments involved precision flight of either an F-18A or F-18B executing steady, level passes at supersonic airspeeds in a turbulent atmosphere to create sonic boom signatures that had been distorted by turbulence. The flights spanned a range of atmospheric turbulence conditions at NASA Armstrong and Kennedy in order to provide a variety of conditions for code validations. The SonicBAT experiments at both sites were designed to capture simultaneous F-18A or F-18B onboard flight instrumentation data, high fidelity ground based and airborne acoustic data, surface and upper air meteorological data, and additional meteorological data from ultrasonic anemometers and SODARs to determine the local atmospheric turbulence and boundary layer height