Relevant bibliographies by topics / Bullet-effect

Contents

  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers

Academic literature on the topic 'Bullet-effect'

Author: Grafiati
Published: 4 June 2021
Last updated: 25 January 2023

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Journal articles on the topic "Bullet-effect"

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Khan, Abdullah, Imran Shah, Shahid Aziz, Muhammad Waqas, Uzair Khaleeq uz Zaman, and Dong-Won Jung. "Numerical and Experimental Analysis of Drag and Lift Forces on a Bullet Head." Aerospace 9, no. 12 (December 12, 2022): 816. http://dx.doi.org/10.3390/aerospace9120816.

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The bullet head plays a principal role in the modern enlargement of an efficient bullet. A bullet’s main design parameters depend upon the lift and drag forces acting on the head. The factors in a bullet’s shape design that affect bullets’ lift and drag forces are essential in aerodynamics, especially in ballistics. Therefore, the effect of wind on the lift and drag forces acting on the bullet, and the role of the bullet head to allow the bullet to travel efficiently through the wind, need to be investigated. This work discusses the parameters that affect the lift and drag force on the bullet. Simulations are performed in Ansys Fluent by varying the key parameters of the bullet head, i.e., the length and angle of attack, while keeping the air velocity at 5.2 m/s. The simulation outcome shows that the size of the bullet and the angle of attack are important factors related to the drag force. Therefore, this work predicts the inspection of a bullet under distinct wind conditions. An evaluation is performed to scrutinize the effect of design factors on the system execution of the bullet and its constructive flight path. It is concluded that when increasing the length of the bullet and its angle of attack (AOA), the drag force and lift forces increase drastically, contributing to the inefficiency of the bullet’s accuracy and penetrating power. A new design is also proposed in which the drag forces are reduced to the minimum.
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Yu, Lei, Yu Wu, Jie Yang, and Yunkai Zhang. "Bullet Subtitle Sentiment Classification Based on Affective Computing and Ensemble Learning." Wireless Communications and Mobile Computing 2021 (June 24, 2021): 1–9. http://dx.doi.org/10.1155/2021/5563104.

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The bullet subtitle reflects a kind of instant feedback from the user to the current video. It is generally short but contains rich sentiment. However, the bullet subtitle has its own unique characteristics, and the effect of applying existing sentiment classification methods to the bullet subtitle sentiment classification problem is not ideal. First, since bullet subtitles usually contain a large number of buzzwords, existing sentiment lexicons are not applicable, we propose Chinese Bullet Subtitle Sentiment Lexicon on the basis of existing sentiment lexicons. Second, considering that some traditional affective computing methods only consider the text information and ignore the information of other dimensions, we construct a bullet subtitle affective computing method by combining the information of other dimensions of the bullet subtitle. Finally, aiming at the problem that existing classification algorithms ignore the importance of sentiment words in short texts, we propose a sentiment classification method based on affective computing and ensemble learning. Our experiment results show that the proposed method has higher accuracy and better practical application effect.
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Yang, Ping, Zhibo Zhang, George W. Kattawar, Stephen G. Warren, Bryan A. Baum, Hung-Lung Huang, Yong X. Hu, David Winker, and Jean Iaquinta. "Effect of Cavities on the Optical Properties of Bullet Rosettes: Implications for Active and Passive Remote Sensing of Ice Cloud Properties." Journal of Applied Meteorology and Climatology 47, no. 9 (September 1, 2008): 2311–30. http://dx.doi.org/10.1175/2008jamc1905.1.

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Abstract Bullet rosette particles are common in ice clouds, and the bullets may often be hollow. Here the single-scattering properties of randomly oriented hollow bullet rosette ice particles are investigated. A bullet, which is an individual branch of a rosette, is defined as a hexagonal column attached to a hexagonal pyramidal tip. For this study, a hollow structure is included at the end of the columnar part of each bullet branch and the shape of the hollow structure is defined as a hexagonal pyramid. A hollow bullet rosette may have between 2 and 12 branches. An improved geometric optics method is used to solve for the scattering of light in the particle. The primary optical effect of incorporating a hollow end in each of the bullets is to decrease the magnitude of backscattering. In terms of the angular distribution of scattered energy, the hollow bullets increase the scattering phase function values within the forward scattering angle region from 1° to 20° but decrease the phase function values at side- and backscattering angles of 60°–180°. As a result, the presence of hollow bullets tends to increase the asymmetry factor. In addition to the scattering phase function, the other elements of the phase matrix are also discussed. The backscattering depolarization ratios for hollow and solid bullet rosettes are found to be very different. This may have an implication for active remote sensing of ice clouds, such as from polarimetric lidar measurements. In a comparison of solid and hollow bullet rosettes, the effect of the differences on the retrieval of both the ice cloud effective particle size and optical thickness is also discussed. It is found that the presence of hollow bullet rosettes acts to decrease the inferred effective particle size and to increase the optical thickness in comparison with the use of solid bullet rosettes.
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Quinn, Davin K., Andrew R. Mayer, and Ronald A. Yeo. "Intracerebral Bullet Fragments: Toxic or Concussive Effect?" Psychosomatics 56, no. 6 (November 2015): 709–10. http://dx.doi.org/10.1016/j.psym.2015.04.002.

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Pirvu, Catalin, Andrea Elena Musteata, George Ghiocel Ojoc, Simona Sandu, and Lorena Deleanu. "A Meso Level FE Model for the Impact Bullet - Yarn." Materiale Plastice 56, no. 1 (March 30, 2019): 22–31. http://dx.doi.org/10.37358/mp.19.1.5116.

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This paper presents a study based on simulating the impact between a yarn (or a single fiber with greater dimensions) and a bullet, the impact velocity being 400 m/s. The characteristics of the involved materials are taken from literature. The yarn is considered isotrope, but the values of the characteristics are close to those of aramid fibers and cooper and lead alloys used for manufacturing the bullets. Analysing the yarn failure caused by a bullet, this FE model allows for identfying the stages in the failure process. First, the yarn is pushed by the bullet and the local elongation of the yarn is tacking place. The yarn rupture occurs in the �strangled� zones, caused by the stretch of the yarn directly supporting the impact. The breaking of the yarn in the thinned zone (more pronounced asymmetric breaking) and it is visible that the yarn elastic recoil starts next the bullet. The friction between the yarn and the bullet is only on the conical surface of the bullet in the tapered zone of the bullet. The yarn is detaching from the bullet (the contact zones between the bullet and the yarn in polymeric matrix become smaller, justifying a neglectable influence of the thermal effect). The yarn has no more contact with the bullet. This step is in the favor of the assumption that, in the actual multi-yarn impact, the other layers of yarns maintain the bullet and the first yarns in contact and this is why bunch of fibers (fragments of the failed yarns) are pressed against the bullet and remain on it. The simulation results were qualitatively validated by SEM investigations of fiber failure under the same conditions as the model.
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Keshet, Uri, Itay Raveh, and Yossi Naor. "Protruding bullet heads indicating dark matter pull." Monthly Notices of the Royal Astronomical Society 508, no. 3 (October 2, 2021): 3455–62. http://dx.doi.org/10.1093/mnras/stab2808.

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ABSTRACT A clump moving through the intracluster medium of a galaxy cluster can drive a bow shock trailed by a bullet-like core. In some cases, such as in the prototypical Bullet cluster, X-rays show a gas bullet with a protruding head and pronounced shoulders. We point out that these features, while difficult to explain without dark matter (DM), naturally arise as the head of the slowed-down gas is gravitationally pulled forward toward its unhindered DM counterpart. X-ray imaging thus provides a unique, robust probe of the offset, collisionless DM, even without gravitational lensing or other auxiliary data. Numerical simulations and a toy model suggest that the effect is common in major mergers, is often associated with a small bullet-head radius of curvature, and may lead to distinct bullet morphologies, consistent with observations.
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SAKAMOTO, Hidetoshi, Kensuke SATO, Tetsuya HIWATASHI, and Toshihiko YAMAGUCHI. "P32 Study on Collision Deformation of bullet : Effect of Collision Angle on Deformation of bullet." Proceedings of the 1992 Annual Meeting of JSME/MMD 2005 (2005): 487–88. http://dx.doi.org/10.1299/jsmezairiki.2005.0_487.

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Wang, Mengdi, and Dong Li. "An empirical investigation of the continuance intention using the bullet curtain." Chinese Management Studies 13, no. 1 (April 1, 2019): 235–54. http://dx.doi.org/10.1108/cms-01-2018-0394.

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PurposeIn accordance with Bagozzi’s self-regulation theory, the aim of this paper is to explore the enablers and inhibitors of continuance intention from the perspective of bullet curtain, a new form of commentary on online video websites.Design/methodology/approachA total of 350 questionnaires were collected for the final analysis (covering 101 questionnaires for the pilot test) from China’s bullet curtain website. To analyze the model, the authors adopted SmartPLS 3.2, a structural equation modeling software.FindingsAs the results suggest, there is a positive correlation between satisfaction and continuance intention and a negative association between social network fatigue and continuance intention. In addition, synchronicity between the comments and video content, a dimension of synchronicity proposed in this study, improves the satisfaction. Furthermore, information overload significantly intensify social network fatigue.Practical implicationsThe results help bullet curtain providers offer better interactive environment and improve websites’ functions to stimulate users.Originality/valueBy combining positive effect and negative effect of commentary, this study investigates Bagozzi’s theory in a context of bullet curtain. Besides, combinations of these factors help to gain insights in how the bullet curtain works in online video websites. These offer useful guidelines for managers to optimize a better system.
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Li, Zhikai. "Influence of Online Learning Behavior and Video Playing Questions on Students’ Learning Effect." International Journal of Emerging Technologies in Learning (iJET) 17, no. 02 (January 31, 2022): 223–38. http://dx.doi.org/10.3991/ijet.v17i02.28535.

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The interactive mode in e-learning can effectively stimulate students' learning motivation, especially the way of video questioning as the mainstream interactive mode of e-learning video, which is conducive to improve students' enthusiasm to participate in learning and enhance learning thinking. This study constructs a theoretical model of the impact of E-learning behavior on Students' learning effect, and analyzes the impact of video bullet problem as an intermediary variable on E-learning behavior on students' learning effect. The results show that the overall Cronbach of the questionnaire α the coefficient is 0.883 and Kaiser – Meyer – Olkin value is 0.822, indicating that the questionnaire has good reliability and validity. The research results of this study provide reference suggestions for exploring the main influencing factors of learning behavior, improving the effect of students' online learning, revealing the optimization strategy of video bullet problem feedback under the network teaching environment, and the production of bullet problem interactive video.
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Ali, Mohammad, and Md Abdul Alim. "Study the Impact of an Exponentially Stretching Rate and Shape Factor of the Axisymmetric Bullet-Shaped Object on the Mixed Convection Boundary Layer Flow and Heat Transfer with Stream-Wise Coordinate and Viscous Dissipation." Journal of Nanofluids 11, no. 5 (August 1, 2022): 692–713. http://dx.doi.org/10.1166/jon.2022.1878.

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The current work has been investigated the influence of the exponentially stretching rate and shapes factor of the axisymmetric bullet-shaped object on the mixed convection magnetohydrodynamic boundary layer flow and heat transfer with viscous dissipation, stream-wise coordinate, and internal heat generation. The main goal of this problem is to discuss the effect of the surface shape and size, stream-wise coordinate, and also the exponential stretching factor of the bullet-shaped object on the fluid flow distribution. The novelty of the present work involved in the area of recently developed numerical method to solve these highly nonlinear differential equations. The present analysis has been performed for both of the fixed (ε = 0) and moving (ε > 0) bullet-shaped object in the two cases of thinner (0 < s < 0.1) and thicker (s ≥ 0.3) surfaces of the bullet-shaped object. It is noted that when ε = 0 means for a fixed bullet-shaped object in a moving fluid and while a moving bullet-shaped object in a fixed fluid represents when ε > 1. The governing equations have been converted into a system of ODEs by using suitable local axisymmetric transformations and solved by applying the spectral quasi-linearization method. This method helps to identify the accuracy, validity, and convergence of the present numerical computations. The computations have been investigated by the effects of different parameters on the flow field, wall friction, and heat transfer. The investigation depicts that the flow field and temperature do not converge the free stream condition asymptotically in the case of a thicker bullet-shaped object instead it intersects the axis with a steep angle which is contradictory with the boundary layer theory and the boundary layer structure has no defined shape whereas in the case of a thinner bullet-shaped object (0 < s < 0.1) the ambient condition satisfies asymptotically and formed a definite boundary layer structure. Heat transfer rate at the bullet-shaped object is negatively correlated with the magnetic parameter, Eckert number, heat generation parameter, and surface thickness parameter but positively correlated with the Prandtl number, location parameter, mixed convection parameter, and stretching ratio parameter. The investigation represents that surface thickness parameter (shape and size) and stretching ratio parameter have a prominent effect on fluid flow properties and cannot be neglected. It is also noticed that the thinner bullet-shaped object acts as a good cooling conductor compared to thicker bullet-shaped object and the wall friction can be reduced much when a thinner bullet-shaped object is used rather than the thicker bullet-shaped object in both types of moving or static bullet-shaped object (ε = 0.0 and ε = 0.2). The present analysis reveals that the heat transfer and the friction factor will be helpful in industrial sectors such as a cooling device in nuclear reactors, automotive engineering, electronic engineering, biomedical engineering, control the cooling rate and quality of the final product.
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Dissertations / Theses on the topic "Bullet-effect"

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Alin, Tova. "The magic bullet against semi-automatic weapons : A quantitative study about the effect of gender mainstreaming in peace processes." Thesis, Uppsala universitet, Statsvetenskapliga institutionen, 2021. http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-451688.

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Women and men experience conflict and peace processes differently. The thesis builds on the idea of feminist policy and gender mainstreaming that suggests women should be substantially included within and around all policy decisions including peace processes, not only to provide gender equality but also because inclusion leads to more long-lasting and qualitative solutions. The purpose of this thesis is to examine if gender mainstreaming in the form of engendered language in peace agreements affects post-conflict sexual violence. To achieve this, a systematic large-N study with OLS regression analysis was conducted. The hypothesis was that engendered language in peace agreements would lead to a smaller prevalence of post-conflict conflict-related sexual violence and hence the correlation between the two would be negative. The findings rather show that there is a positive correlation between the two on a 95 percent significance level, generating questions regarding both measurements of the prevalence of post-conflict conflict-related sexual violence and about the effectiveness of gender mainstreaming in peace agreements. Hence, the general conclusion of the thesis is that gender mainstreaming in peace agreements as a ‘magic bullet’ is not the complete answer in the struggle towards gender equality in post-conflict situations.
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Canessi, Tomà. "Physical modelling of rock fragmentation upon impact." Master's thesis, Alma Mater Studiorum - Università di Bologna, 2017.

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Rockfall represents a significant safety hazard in building, civil and mining environment that can cause serious injuries and fatalities and can damage structures, infrastructure and machinery. It is extremely costly to manage and public authorities need reliable tools to study and design protection structures as the performance of the existing structures are variable. Many studies and experiments have been done, but one aspect would lead to a better comprehension of the subject: the fragmentation of blocks upon impact. Rocks commonly break up upon impact but rockfall prediction models currently available mostly ignore this phenomenon, even though fragmentation changes size, shape and energy of falling blocks and can drastically change the outcome of the design of protective structure. For example, if a large rock breaks upon impact and its mass and energy are divided among fragments, a high level of energy is dissipated and ignoring fragmentation would lead on an overdesign of the protection barrier. Moreover, very fast rock fragments may rupture a rockfall protection. The project aims to overcome this limit, studying and considering fragmentation in rockfall model, allowing assessment of the hazard rising from a shattered rock. The intention is to develop a database of experimental data about fragmentation of blocks upon impact by considering the initial conditions that cause fragmentation, the fragment size and mass distribution, the partition of velocity and energy at impact and what may lead to “bullet effect” or high flying fragment. This project aims to include fragmentation in rockfall prediction causes to facilitate a better and safer mitigation of rockfall hazard. Moreover, a better knowledge will directly translate into economical and societal benefits, such as more cost effective and better user experience.
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朱政崑. "On the Effect of Fabric Structures on the Bullet-Resistance." Thesis, 1995. http://ndltd.ncl.edu.tw/handle/11681054845294979625.

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碩士
逢甲大學
紡織工程研究所
83
In recent years, our society has rapidly changed, and the gun-power of underworld society has been getting stronger. Yet, the defense equipment of Taiwan police department still relies on the import from foreign comitries. Although Taiwan has the technology for producing bullet-resistance textiles, we still manufacture the textile according to the established styles of foreign countries. The advance of gun-power has seriously threaded the society peacefullness. Therefore, enhancing the defense equipment is a necessity.   In dealing with the weaving in bullet-resistance textiles, most of the works have adopted the approach as to use plain weave structures and then to add and cure resins into the soft preforms, both of which can be found in literature of foreign countries. In Taiwan, the Chung Sun Institute of Science and Technology and Chung Cheng Institute of Technology are the places to investigate the associated research, emphasizing on the composite fabrications. However, the textile fabrics can be the most essential items, without which a high performance bullet-resistance composite would be impossible. Despite the importance, there is a lack of the related research regarding the effect of fabric structures on the bullet-resistance capacity.   Therefore, the purpose of this research is to change weaving structures and then evaluate their bullet-resistance and energy-absorbing performance. Four-layer angle-interlock structures have been studied m this research, and the comparison between these fabrics and traditional laminated ones has been made. Based on the same thickness, it is found that the angle-interlock fabrics are better in bullet-resistance; in the other words, the weight can be saved based on identical bullet-resistance performance. Various weaving patterns and fiber yarns have been investigated. The laminated structures using short fibers have been found to be low in bullet-resistance, while great improvement can be achieved by consolidating the preforms using resin impregnation. For those made by non-woven fibers, however, the reverse is true.
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Spadari, Michele. "Experimental and numerical investigations on barriers for rockfall hazard mitigation." Thesis, 2013. http://hdl.handle.net/1959.13/1038004.

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Research Doctorate - Doctor of Philosophy (PhD)
Managing the rockfall hazard is a complex task, which involves several phases from land planning to the design of protective structures. Despite the increasing interest in rockfall-related research over the last few decades, some issues remain only partially addressed to date. In particular, existing predictive tools for the simulation of block trajectories could be improved and the criteria for the design of flexible metallic barriers are potentially flawed by block size effects. In the Australian context, the lack of research into rockfall phenomena has prevented the development of a comprehensive hazard characterisation so far; moreover, some types of barriers currently in use present cost-effectiveness issues. In this thesis, formed by six peer-reviewed publications, the aforementioned issues are investigated, with the aim of improving the knowledge regarding rockfall, especially for the Australian environment. The first paper presents the results of extensive in situ tests performed in different geological environments in NSW. Rockfall motion parameters are obtained for the first time in the Australian context and uncommonly high values of the normal coefficient of restitution are highlighted. An investigation of these results is undertaken in the second paper through extensive laboratory testing: low impacting angles, rotational energy and block shape are correlated to the high values of kn obtained in the experiments. In the third paper, the results from in situ tests are applied to real profiles taken from a database of Australian slopes: a basic hazard characterisation is performed using a 2D lumped mass model and low impact energy values are found for most of the cases. The fourth paper shows a comparison between four different flexible barriers, carried out by full-scale laboratory testing. The results provide an insight on the estimation of the barriers’ performance: in particular, stiffness and load transmission are evaluated, and modifications to improve the performance of one of the systems are suggested. Experimental and numerical evidence of the bullet effect are presented in the fifth and sixth papers. A Finite Element model of a mesh panel, calibrated by means of laboratory testing, is used to validate an innovative dimensional approach.
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Yu, Dah-Rong, and 于大容. "Study of the transient effect of a light bullet in semiconductor laser amplifiers." Thesis, 2010. http://ndltd.ncl.edu.tw/handle/50916480296332130889.

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碩士
中華大學
電機工程學系碩士班
98
This thesis studies the transient effect of a light bullet injected into a semiconductor laser amplifier. For simulating the gain and absorption media in the amplifier, we use the Lorentzian dispersive medium model to develop the numerical model of the amplifier. The piecewise-linear-recursive-convolution (PLRC) method is used to numerically solve the model equations. We inject the fundamental mode and non-modal light bullets into the amplifier, respectively, so that the evolutions of the light bullets in the gain and absorption media can be studied. From the evolution of the non-modal light bullet, the transient effect of the light bullet in semiconductor laser amplifiers can be more understood.
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Siegmund, Bernward. "Untersuchung der Geschosswirkung in der sehr frühen Phase unter besonderer Berücksichtigung der Hochgeschwindigkeitsmunition." Doctoral thesis, 2006. http://hdl.handle.net/11858/00-1735-0000-0006-B33E-8.

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Books on the topic "Bullet-effect"

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Art, Metta. Things to Do for 366 Days: A Bullet Formatted Book for Your Day to Day List of Things to Do - Metal Effect. Independently Published, 2018.

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Art, Metta. Things to Do for 366 Days: A Bullet Formatted Book for Your Day to Day List of Things to Do - Stone Effect. Independently Published, 2018.

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Things to Do for 366 Days: A Bullet Formatted Book for Your Day to Day List of Things to Do - Marble Effect. Independently Published, 2018.

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Art, Metta. Things to Do for 366 Days: A Bullet Formatted Book for Your Day to Day List of Things to Do - Wood Effect. Independently Published, 2018.

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Art, Metta. Things to Do for 366 Days: A Bullet Formatted Book for Your Day to Day List of Things to Do - Tree Bark Effect. Independently Published, 2018.

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Stegenga, Jacob. Magic Bullets. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198747048.003.0004.

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Some medical interventions, such as penicillin and insulin, are good examples of magic bullets. The magic bullet model of medical interventions represents two principles: specificity and effectiveness. The magic bullet model gained popularity in the mid-twentieth century with the discovery of antibiotics and insulin. Once we appreciate the complexity of the constitutive causal basis of diseases and the cascading physiological complexity of effects of exogenous interventions, the expectation of effectiveness and specificity ought to be mitigated. The theory that drugs can intervene on one or few microphysiological targets and thereby bring about an effect that is both clinically significant and symptomatically specific is, for many interventions, unfounded.
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PUBLICATIONS, CUSTOMEYES. Pippa Dot Journal: Letter P Personalized First Name Personal Dotted Bullet Grid Writing Notebook | Black Gold Glittery Space Effect Cover | Daily ... & Writers for Note Taking & Drawing. Independently published, 2019.

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Reade, Michael C., and Peter D. Thomas. Pathophysiology of ballistic trauma. Oxford University Press, 2016. http://dx.doi.org/10.1093/med/9780199600830.003.0339.

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Bullets and other projectiles cause ballistic trauma. Explosions wound by the effect of a blast pressure wave, penetrating fragments propelled by the explosion, the mass movement of gas interacting with the casualty or the environment, and miscellaneous effects. Most blast casualties surviving to hospital care will not have significant pressure wave injury, but some will. Blast fragmentation most commonly resembles other types of low energy transfer ballistic trauma.. The effect of bullets depends on the kinetic energy transferred and the nature of the tissues struck, with energy transfer partly determined by bullet design. Low energy transfer bullets wound by crushing and laceration, limited to the tissues struck. High energy bullets may impart kinetic energy to surrounding tissues, causing a temporary cavity which sucks in debris and damages tissues sometimes well beyond the bullet track. Predicting the extent of devitalization can be difficult at the time of initial inspection. Wound contamination, particularly with soil, may modify the usual conservative approach to initial debridement.
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Designs, Vepa. Creative Journal: Dot Grid Journal - Abstract Clean Color Colorful Creative Creativity Effect Elegance Flower Futuristic Graphic Modern Motion Splash Style - Black Dotted Diary, Planner, Gratitude, Writing, Travel, Goal, Bullet Notebook - 6X9 120 Pages. Independently Published, 2019.

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A, T, A. &. T, and Mac Mendelsohn. Get Started with Microsoft PowerPoint 97! - Illustrated Interactive. Course Technology, 1997.

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Book chapters on the topic "Bullet-effect"

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Wu, Chen-Wu. "Effect of residual stresses on spallation of the film under impact by coated bullet." In Experimental and Applied Mechanics, Volume 6, 239–52. New York, NY: Springer New York, 2011. http://dx.doi.org/10.1007/978-1-4614-0222-0_30.

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Li, Yedan, Wei Qi, Xinzhe Zhang, and Meng Song. "Research on the Influence of Uploaders’ Behavior on the Effect of Bullet Screen Video Dissemination." In Advances in Intelligent Automation and Soft Computing, 799–806. Cham: Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-030-81007-8_91.

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Zhai, Xiao-jun, Yong-jie Zhu, and Shang-shun Wang. "Research on the End Effect Experiment of New Type 18.4 mm Kinetic Energy Pain Block Bullet." In The 19th International Conference on Industrial Engineering and Engineering Management, 865–75. Berlin, Heidelberg: Springer Berlin Heidelberg, 2013. http://dx.doi.org/10.1007/978-3-642-38433-2_92.

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Rehak, Bob. "Microgenres in Migration." In More Than Meets the Eye. NYU Press, 2018. http://dx.doi.org/10.18574/nyu/9781479813155.003.0005.

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The movement of special effects among media texts is the focus of this chapter, which argues that certain well-known special effects should be approached as “microgenres” that emerge, evolve, and die out at accelerated timespans. Using The Matrix franchise and its signature “bullet time” special effect as a case study, the chapter relates the digital environment of contemporary transmedia to an analog history of borrowings and citations of special effects in film and television. The chapter concludes with a discussion of migration in digital visual culture, expanding the book’s scope to include videogames.
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Foster, Nigel. "6. The Free Movement of Goods." In Concentrate Questions and Answers EU Law. Oxford University Press, 2016. http://dx.doi.org/10.1093/he/9780198745280.003.0016.

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The Concentrate Questions and Answers series offer the best preparation for tackling exam questions. Each book includes typical questions, bullet-pointed answer plans and suggested answers, author commentary and illustrative diagrams and flowcharts. This chapter presents sample exam questions along with examiner’s tips, answer plans, and suggested answers about the free movement of goods in the EU. The questions focus on charges and measures having equivalent effect, the restrictions allowed under Art 36 TFEU and the principles of law which have emerged from the case of Cassis de Dijon and subsequent cases.
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Foster, Nigel. "6. The Free Movement of Goods." In Concentrate Questions and Answers EU Law. Oxford University Press, 2018. http://dx.doi.org/10.1093/he/9780198817857.003.0006.

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The Concentrate Questions and Answers series offer the best preparation for tackling exam questions. Each book includes typical questions, bullet-pointed answer plans and suggested answers, author commentary, and illustrative diagrams and flowcharts. This chapter presents sample exam questions along with examiner’s tips, answer plans, and suggested answers about the free movement of goods in the EU. The questions focus on charges and measures having equivalent effect, the restrictions allowed under Art 36 TFEU, and the principles of law which have emerged from the case of Cassis de Dijon and subsequent cases. The significance of the judgment of the Court of Justice in Keck is addressed.
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Foster, Nigel. "6. The Free Movement of Goods." In Concentrate Questions and Answers EU Law, 119–38. Oxford University Press, 2020. http://dx.doi.org/10.1093/he/9780198853190.003.0006.

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The Concentrate Questions and Answers series offer the best preparation for tackling exam questions. Each book includes typical questions, bullet-pointed answer plans and suggested answers, author commentary, and illustrative diagrams and flowcharts. This chapter presents sample exam questions along with examiner’s tips, answer plans, and suggested answers about the free movement of goods in the EU. The questions focus on charges and measures having equivalent effect, the restrictions allowed under Art 36 TFEU, and the principles of law which have emerged from the case of Cassis de Dijon and subsequent cases. The significance of the judgment of the Court of Justice in Keck is addressed.
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Jack, Zachary Michael. "Dovesong." In The Haunt of Home, 194–201. Cornell University Press, 2020. http://dx.doi.org/10.7591/cornell/9781501751790.003.0014.

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This chapter describes the mourning dove's funerary dirge. For the first time in nearly a century, open season has been declared on the dove. Amendments fail to outlaw the lead bullet or set the kill zone back from homes. The chief executive signs the bill in the company of lobbyists from the National Rifle Association. These five ounces of meat with wings are purported to bring seven million dollars into governmental coffers. Ultimately, forty-one of fifty states favor open season on the dove of mourning, making them, in effect, sitting ducks. The chapter then explores how the debate over open season on the mourning dove heralds the coming of the culture wars.
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Russell, Roseanne. "5. Continuity of employment." In Concentrate Questions and Answers Employment Law. Oxford University Press, 2017. http://dx.doi.org/10.1093/he/9780198745198.003.0005.

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The Q&A series offer the best preparation for tackling exam questions. Each book includes typical questions, bullet-pointed answer plans and suggested answers, author commentary and illustrative diagrams and flowcharts. This chapter presents sample exam questions about continuity of employment. Through a mixture of problem questions and essays, students are guided through some of the key issues on the topic of continuity of employment including the qualifying periods of employment for important statutory rights, determining the start and end dates of employment, the effect of absences on employment continuity, and TUPE transfers. Students are also introduced to the current key debates in the area and provided with suggestions for additional reading for those who want to take things further.
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Russell, Roseanne. "5. Continuity of employment." In Concentrate Questions and Answers Employment Law, 53–68. Oxford University Press, 2021. http://dx.doi.org/10.1093/he/9780198856757.003.0005.

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The Q&A series offer the best preparation for tackling exam questions. Each book includes typical questions, bullet-pointed answer plans and suggested answers, author commentary, and illustrative diagrams and flowcharts. This chapter presents sample exam questions about continuity of employment. Through a mixture of problem questions and essays, students are guided through some of the key issues on the topic of continuity of employment including the qualifying periods of employment for important statutory rights, determining the start and end dates of employment, the effect of absences on employment continuity, and TUPE transfers. Students are also introduced to the current key debates in the area and provided with suggestions for additional reading for those who want to take things further.
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Conference papers on the topic "Bullet-effect"

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Akechi, Nao, Itaru Kitahara, Ryuuki Sakamoto, and Yuichi Ohta. "Multi-resolution bullet-time effect." In SA'14: SIGGRAPH Asia 2014. New York, NY, USA: ACM, 2014. http://dx.doi.org/10.1145/2668975.2669015.

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Chen, Ding, and Ryuuki Sakamoto. "Optimizing infinite homography for bullet-time effect." In ACM SIGGRAPH 2014 Posters. New York, New York, USA: ACM Press, 2014. http://dx.doi.org/10.1145/2614217.2614233.

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LU, HAI-TAO, YONG-XI JIN, SHU WANG, and WEI-BING LI. "THERMAL EFFECT INFLUENCE ON BULLET ENGRAVING PROCESS AND INTERIOR BALLISTIC PROCESS." In 32ND INTERNATIONAL SYMPOSIUM ON BALLISTICS. Destech Publications, Inc., 2022. http://dx.doi.org/10.12783/ballistics22/36100.

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The thermal effect cause by continuous firing of firearms, generally recognize have influence on the movement of bullets during in-bore process. In order to understand this influence. A finite element model coupled thermal and structure which contained bullet and barrel was established. Through the classical interior ballistic theory, the distribution and variation law of the boundary and load conditions parameters in the bore were determined, such as base pressure, propellant gas temperature, forced convection coefficient. By loading the boundary and load conditions at different positions in the barrel versus real time, the temperature distribution and deformation of the barrel after different initial temperatures and multiple continuous firing, the changes of the structure and movement parameters of bullets were calculated, and the model was validated by the temperature distribution of the barrel surface through the experimental test. The research shows that the thermal effect has a great influence on the engraving resistance of bullet, but the trajectory was little. The structural characteristics of the bullet change greatly with the increase of temperature. In addition, the thermal effect has a great influence on the vibration speed of the barrel muzzle, which may further affect the firing accuracy. Generally, when the barrel temperature is below 200 ℃ , the thermal effect has little influence, and when the barrel temperature is above 200 , the negative influence caused by the thermal effect increases linearly.
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Smed, Jouni, Henrik Niinisalo, and Harri Hakonen. "Realizing bullet time effect in multiplayer games with local perception filters." In ACM SIGCOMM 2004 workshops. New York, New York, USA: ACM Press, 2004. http://dx.doi.org/10.1145/1016540.1016551.

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ERIKSSON, THOMAS, and PATRIK LUNDBERG. "Modeling the Effect of Initial Disturbances when a Bullet Impact in Gelatin." In 30th International Symposium on Ballistics. Lancaster, PA: DEStech Publications, Inc., 2017. http://dx.doi.org/10.12783/ballistics2017/17035.

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Baig, Zahid I., and Vinay Dayal. "Damage Characterization Around a Bullet Hole in Composites." In ASME 1998 International Mechanical Engineering Congress and Exposition. American Society of Mechanical Engineers, 1998. http://dx.doi.org/10.1115/imece1998-0514.

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Abstract The ballistic impact of a bullet on thin and thick composites has been studied in this work. Vibration modal analysis was used to ascertain the effect of bullet hole and damage on the change in natural frequency of the laminate. Ultrasound was used to determine the actual extent of damage in the laminate and a quasi-static Finite Element model is employed to determine the development of interlaminar shear stresses and failure in the laminate.
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Hang, Guiyun, Wenli Yu, Tao Wang, Yunliang Gao, and Jintao Wang. "Simulation on the penetration effect of an ogive bullet with yaw and obliquity." In International Conference on Simulation and Modeling Methodologies, Technologies and Applications. Southampton, UK: WIT Press, 2014. http://dx.doi.org/10.2495/smta140171.

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Peng, D., L. Chai, X. Guo, and R. Zhang. "Effect of the power supply frequency on the mode transition of appj plasma bullet." In 22nd International Symposium on High Voltage Engineering (ISH 2021). Institution of Engineering and Technology, 2021. http://dx.doi.org/10.1049/icp.2022.0096.

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WU, YANG, BIN QIN, HAITAO LU, JINMING LI, and TIANLONG ZHANG. "STUDY ON ENERGY ABSORPTION CHARACTERISTICS OF ALUMINUM HONEYCOMB/UHMWPE COMPOSITE LAMINATE STRUCTURE AGAINST BALLISTIC IMPACT." In 32ND INTERNATIONAL SYMPOSIUM ON BALLISTICS. Destech Publications, Inc., 2022. http://dx.doi.org/10.12783/ballistics22/36193.

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In this paper, the effects of pore density and thickness of honeycomb on the compressive deformation and buffer energy absorption characteristics of aluminum honeycomb/UHMWPE (Ultra-high molecular weight polyethylene) composite laminate structure were analyzed by quasi-static compression test and 9mm caliber gun ballistic impact test. According to the test results, the specific energy absorption of the aluminum honeycomb structure reaches 26~34J • cm/g. The maximum deformation depth of gelatin on the back of the aluminum honeycomb/UHMWPE composite laminate structure against ballistic impact decreases by 20% compared with UHMWPE fiber under the same surface density. The increase of the honeycomb thickness can improve the impact resistance of the composite layered structure. The honeycomb pore density and cell wall thickness are proportional to the anti-buffer energy absorption effect and it is inversely proportional to the crack diameter when the bullet impact the honeycomb structure. The aluminum honeycomb/UHMWPE composite laminate structure can absorb the impact kinetic energy of the bullet in a certain extent.
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Rahman, Mosfequr, Steven Chrysosferidis, Sirajus Salekeen, Adam Chevalier, David Bell, Bowen Jones, and Adam Barlow. "Finite Element Analysis of Various Projectiles Modeled as Bullets." In ASME 2015 International Mechanical Engineering Congress and Exposition. American Society of Mechanical Engineers, 2015. http://dx.doi.org/10.1115/imece2015-53007.

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The objective of this research work was to perform a flow simulation around a running bullet and then compare and analyze three types of widely used bullet models. These are 7.62mm × 39mm, 7.62mm × 51mm, and 5.56mm × 45mm caliber popular NATO rounds respectively. Due to limited processing and computational resources, these bullet are modeled as cylindrical projectiles of similar length and diameter. Finite element analysis (FEA) are performed on these models using ANSYS explicit dynamics analysis code to investigate the effect of high velocity impact of these projectiles on a concrete plate. Three different types of meshing (coarse, fine, and fine with curvature) for each of these three cases have been used. Each projectile was fired at a different velocity. These velocities are selected in consultation with Hornady Manufacturing, Inc which has done extensive research on these bullets. The selected firing velocities for 7.62mm × 39mm, 7.62mm × 51mm, and 5.56mm × 45mm caliber bullets are 2021ft/s, 2539.4ft/s 2706.7ft/s respectively. Overall, the simulation result of explicit dynamics clearly demonstrated cavitation and mushrooming of projectiles when impacting a 0.25 inch concrete plate. The 5.56mm × 45mm projectile seemed to have the largest overall total deformation values of 2.0303, 1.0487, and 0.26079 feet as obtained from simulation of the three types of mashing. This can be attributed due to the higher velocity (2706.7ft/sec) as compared to the other two cases. Similarly, the 7.63mm × 39mm has the highest average change of velocity of 144.7, 92.3, and 99.6ft/sec respectively from the three types of meshing among the three bullets which can be attributed due to its lowest impact velocity (2021ft/s).
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