Kinora and Double Kinora (Mutoscope)

The mutoscope is a cylindrical container ranging in size from a large, standing viewing station down to a smaller, more transportable unit. These machines hold hundreds of small cards with images printed on them attached to a circular core. This core is attached to an external crank which is turned by the viewer. The booklet turns, and the cards are held tensely bent into viewing position by a small metal piece. As the cards flip by, the rapid frame rate produces the illusion of a moving image (Rossell,Living Pictures, 96).

Don't Worry, B-Buy: E-Procurement at Bucknell

Bucknell University is piloting a centralized e-procurement system for institutional purchasing that will streamline the procurement process.

Borrow or buy? cost-effective delivery of monographs

In an effort to reduce Interlibrary borrowing activity, while enhancing the Library collection, the Bertrand Library has initiated a program to purchase current monographs requested through ILL by Bucknell University students and faculty. The results have been a successful reduction in ILL workload, and a cost-effective means of document delivery as measured by average delivery time, cost-per-title, processing costs, and circulation statistics. This procedure reflects an overall change in our philosophy concerning document access and delivery, which led to the reorganization of ILL services and staff in the Bertrand Library.

Development of the Heat and Energy Concept Inventory: Preliminary Results on the Prevalence and Persistence of Engineering Students' Misconceptions

BACKGROUND Students frequently hold a number of misconceptions related to temperature, heat and energy. There is not currently a concept inventory with sufficiently high internal reliability to assess these concept areas for research purposes. Consequently, there is little data on the prevalence of these misconceptions amongst undergraduate engineering students. PURPOSE (HYPOTHESIS) This work presents the Heat and Energy Concept Inventory (HECI) to assess prevalent misconceptions related to: (1) Temperature vs. Energy, (2) Temperature vs. Perceptions of Hot and Cold, (3) Factors that affect the Rate vs. Amount of Heat Transfer and (4) Thermal Radiation. The HECI is also used to document the prevalence of misconceptions amongst undergraduate engineering students. DESIGN/METHOD Item analysis, guided by classical test theory, was used to refine individual questions on the HECI. The HECI was used in a one group, pre-test-post-test design to assess the prevalence and persistence of targeted misconceptions amongst a population of undergraduate engineering students at diverse institutions. RESULTS Internal consistency reliability was assessed using Kuder-Richardson Formula 20; values were 0.85 for the entire instrument and ranged from 0.59 to 0.76 for the four subcategories of the HECI. Student performance on the HECI went from 49.2% to 54.5% after instruction. Gains on each of the individual subscales of the HECI, while generally statistically significant, were similarly modest. CONCLUSIONS The HECI provides sufficiently high estimates of internal consistency reliability to be used as a research tool to assess students' understanding of the targeted concepts. Use of the instrument demonstrates that student misconceptions are both prevalent and resistant to change through standard instruction.

The Catholic Doctrine of Transubstantiation: An Exposition and Defense

The purpose of this thesis is to offer both an exposition and defense for the Catholic Church's traditional understanding of eucharistic transubstantiation. I hope to show how a belief in such a doctrine is in no way irrational nor is it indefensible; butinstead, the doctrine of transubstantiation makes sense when it is viewed in light of what Catholic Christians believe about who the human being is, what the human desires, and the special way in which God personally works in human history. The method I am following investigates how the doctrine of transubstantiation coheres with and follows the other beliefs that Catholics hold; that is, beginning with certain presuppositions, there is a certain rational progression to the Catholic understanding of real presence.

Strong Dynamical Heterogeneity and Universal Scaling in Driven Granular Fluids

Large-scale simulations of two-dimensional bidisperse granular fluids allow us to determine spatial correlations of slow particles via the four-point structure factor S-4 (q, t). Both cases, elastic (epsilon = 1) and inelastic (epsilon < 1) collisions, are studied. As the fluid approaches structural arrest, i.e., for packing fractions in the range 0.6 <= phi <= 0.805, scaling is shown to hold: S-4 (q, t)/chi(4)(t) = s(q xi(t)). Both the dynamic susceptibility chi(4)(tau(alpha)) and the dynamic correlation length xi(tau(alpha)) evaluated at the alpha relaxation time tau(alpha) can be fitted to a power law divergence at a critical packing fraction. The measured xi(tau(alpha)) widely exceeds the largest one previously observed for three-dimensional (3d) hard sphere fluids. The number of particles in a slow cluster and the correlation length are related by a robust power law, chi(4)(tau(alpha)) approximate to xi(d-p) (tau(alpha)), with an exponent d - p approximate to 1.6. This scaling is remarkably independent of epsilon, even though the strength of the dynamical heterogeneity at constant volume fraction depends strongly on epsilon.