How Your Brain Tricks You Into Thinking Magic Is Real. Magic tricks, or illusions, make us go “ooh,” “ahhh,” and “how the flippin’ crap did they do that?!” They’re part sleight of hand, part planning, and a lot of brain confusion. Your brain is a liar. No matter what anyone says about performing magic tricks, everyone’s jaws drop when they see an…Read more In the video above from the Wired You. Tube channel, magician David Kwong, and author of the book Spellbound, reveals the “7 Principles of Illusion.” These principles are what turns a simple sleight of hand gesture into a mind melting magic trick: Mind the gap: Your brain takes shortcuts and makes assumptions to help process the incomplete visual data it’s receiving, or what’s known as amodal completion. Write the script: Magicians want you to believe what you’re seeing, so they give you specific verbal information, or a script, to fill in those gaps. It’s mental manipulation at its finest. Load up: The trick you’re seeing is the result of a ton of prep work done by the magician. It’s like sitting down to a fancy meal at a restaurant and forgetting how much time and effort went into making it. Design free choice: Magicians will often make it feel like you’re making some sort of choice, when really you’re being shown the only possible choice. Ever notice how Christopher Nolan’s movies (Interstellar, Inception, The Prestige) feel like an anxiety attack? Well, maybe that’s overstating things a bit. But.Xbox 360 faceplates for sale. Various Xbox 360 accessories are available for as low as 1 cent at.Find a great selection of Faceplates For Xbox 360 deals on eBay.The End of Work book download Jeremy Rifkin Download The End of Work.The end of work: the decline of the global labor force and the.Like all good books, The End of.Potřebujete poradit?Nevíte, jaké zvolit palubky či podlahovky?Zeptejte se odborníků na palubky a podlahovky. If you feel like you are in control, you’ll buy into the illusion even more. Employ the familiar: Magicians play into your brain’s need to spot patterns. If a magician shows you only a few cards from a trick deck, your brain will fill in the blanks and you’ll assume the deck is normal. Conjure an out: Magicians always have a backup plan—or three or four of them. They’re ready for someone to make an uncommon choice, and they’ve planned for secondary illusions to make up for it. You’ll never fool a magician. Proform crosstrainer 970 recumbent bike. Find best value and selection for your ProForm Crosstrainer 970 Recumbent Bike search on eBay. The Proform 970 Recumbent.
If you think you can, you’ve already fallen for principle number four, hard. Control the frame: Like a film director or photographer, magicians know how to draw your attention to where they want it. You’ll always look where they want you to look because your brain can’t help it. So there you have it. Illusions may not be real magic, but they fool your brain so well they may as well be. ![]()
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The physics of high energy reactions. Proceed. Workshop on Nucl. Reaction Data and Nuclear Reactor Physics, Design and Safety. Vol. 2). Trieste: ICTP; (1. Serber R. Nuclear reactions at high energies. Phys Rev (1. 94. 7) 7. Phys. Rev. 7. 2. 1. Cross Ref]3. 2. Bertini HW, Gabriel TA, Santoro RT, Hermann OW, Larson NM, Hunt JM. HIC- 1: A First Approach to the Calculation of Heavy- Ion Reactions at Energies 5. Me. V/Nucleon. Oak Ridge: ORNL- TM- 4. Griffin JJ. Statistical model of intermediate structure. Phys Rev Lett (1. Phys. Rev. Lett. 1. Cross Ref]3. 4. Blann M. Precompound analyses of spectra and yields following nuclear capture of stopped pi- . Phys Rev C (1. 98. Phys. Rev. C. 2. 8. Cross Ref]3. 5. Weisskopf VF. Statistics and nuclear reactions. Phys Rev (1. 93. 7) 5. Phys. Rev. 5. 2. 2. Cross Ref]3. 6. Fermi E. High energy nuclear events. Progr Theor Phys (1. Cross Ref]3. 7. Cussol D. Nuclear Physics and Hadron Therapy. La Colle sur Loup: Lectures at Ecole Joliot Curie; (2. Pedroni E, Scheib S, Böhringer T, Coray A, Grossmann M, Lin S, et al. Experimental characterization and physical modelling of the dose distribution of scanned proton pencil beams. Phys Med Biol (2. Pub. Med][Cross Ref]3. Sawakuchi GO, Titt U, Mirkovic D, Ciangaru G, Zhu XR, Sahoo N, et al. Monte Carlo investigation of the low- dose envelope from scanned proton pencil beams. Phys Med Biol (2. Pub. Med][Cross Ref]4. Beebe- Wang J, Vaska P, Dilmanian FA, Peggs SG, Schlyer DJ. Simulation of proton therapy treatment verification via PET imaging of induced positron- emitters. IEEE Proc Nuc Sci Symp Conf Rec. Vol. 4) Portland: (2. Zhu X, El Fahkri G. Proton therapy verification with PET imaging. Theranostics (2. 01. PMC free article][Pub. Med][Cross Ref]4. Schneider W, Bortfeld T, Schlegel W. Correlation between CT numbers and tissue parameters needed for Monte Carlo simulations of clinical dose distributions. Phys Med Biol (2. Pub. Med][Cross Ref]4. Paganetti H. Relative biological effectiveness (RBE) values for proton beam therapy. Variations as a function of biological endpoints, dose and linear energy transfer. Phys Med Biol (2. R4. 19–7. 2. 1. 0. R4. 19 [Pub. Med][Cross Ref]4. Wilkens JJ, Oelfke U. Direct comparison of biologically optimized spread- out bragg peaks for protons and carbon ions. Int J Radiat Oncol Biol Phys (2. Pub. Med][Cross Ref]4. Krämer M, Durante M. Ion beam transport calculations and treatment plans in particle therapy. Eur Phys J D (2. 01. Cross Ref]4. 6. Andreo P. On the clinical spatial resolution achievable with proton and heavier charged particle radiotherapy beams. Med Phys Biol (2. N2. 05–1. 5. 1. 0. N0. 1 [Pub. Med][Cross Ref]4. Besemer A, Paganetti H, Bednarz B.The clinical impact of uncertainties in the mean excitation energy of human tissues during proton therapy.Phys Med Biol (2. PMC free article][Pub. Med][Cross Ref]4. Sihver L, Lantz M, Takechi M, Kohama A, Ferrari A, Cerutti F, et al. A comparison of total reaction cross section models used in particle and heavy ion transport codes. Adv Space Res (2. Cross Ref]4. 9. Agodi C, Abou- Haidar Z, Alvarez MAG, Aumann T, Balestra F, Battistoni G, et al. FIRST experiment: fragmentation of ions relevant for space and therapy. J Phys (2. 01. 3) 4. Cross Ref]5. 0. Ferrari A, Sala PR, Fassö A, Ranft J. FLUKA: a multi- particle transport code. CERN Yellow Report CERN 2. INFN/TC 0. 5/1. 1, SLAC- R- 7. Available from: www. Battistoni G, Muraro S, Sala PR, et al. The FLUKA code: description and benchmarking. AIP Proceedings Hadronic Shower Simulation Workshop 2. Vol. 8. 96), Tsukuba: Fermilab (2. Ferrari A, Sala R, Guaraldi R, Padoani F. An improved multiple scattering model for charged particle transport. Nucl Instrum Methods Phys Res B (1. X(9. 2)9. 53. 59- Y [Cross Ref]5. Fassö A, Ferrari A, Ranft J, et al. New developments in FLUKA modelling of hadronic and EM interactions. KEK Proceedings 3rd Workshop on Simulating Accelerator Radiation Environments (SARE 3) (Vol. Tsukuba (1. 99. 7). Rinaldi I, Ferrari A, Mairani A, Paganetti H, Parodi K, Sala PR. An integral test of FLUKA nuclear models with 1. Me. V proton beams in multi- layer Faraday cups. Phys Med Biol (2. Pub. Med][Cross Ref]5. Böhlen TT, Cerutti F, Chin MPW, Fassò A, Ferrari A, Ortega PG, et al. The FLUKA code: developments and challenges for high energy and medical applications. Nucl Data (2. 01. Cross Ref]5. 6. Andersen V, Ballarini F, Battistoni G, Campanella M, Carboni M, Cerutti F, et al. The FLUKA code for space applications: recent developments. Adv Space Res (2. Pub. Med][Cross Ref]5. Cerutti F, Battistoni G, Capezzalli G, Colleoni P, Ferrari E, Gadioli E, et al. Low Energy nucleus- nucleus reactions: the BME approach and its interface with FLUKA. Proceed. 1. 1th Int Conf on Nuclear Reaction Mechanisms. Varenna: (2. 00. 6). Metamaterials conference 2. High Gain Metasurface Antenna with Multiple Feeding Structure. Poster[Show abstract]Niamat Hussain, Ajou University, Korea (South)Ikmo Park, Ajou University, Korea (South). This paper presents the design of a planar, low- profile, high- gain, wide- gain- bandwidth metasurface antenna with a multiple feeding structure. The antenna structure consists of a 5×5 array of square patch metasurface and a planar feeding structure, both of which are patterned on a high- permittivity, electrically thin, Ga. As substrate. The metasurface is etched on the top side of the substrate, while the feeding structure, which is a wideband, leaky- wave, center- fed open- ended slotline, is printed on the bottom side of the substrate. The antenna showed maximum broadside gain of 1. Bi, radiation efficiency of 7. B- gain bandwidth of more than 1. THz). Dispersionless Slow Wave In Waveguides Composed Of Two Types Of Single- Negative Matematerials Poster[Show abstract]Zhiwei Guo, University of Tong. Ji, China. Haitao Jiang, University of Tong. Ji, China. Hong Chen, University of Tong. Ji, China. We study the dispersionless slow wave in waveguides composed of two kinds of single- negative metamaterials. The underlying physical mechanism is the compensation effect of power flow in two sides of the waveguide. This dispersionless slow wave may be used in signal processing and optical storage applications. The Resonant Waveguide Elements in the Spatially Confined 2- D Photonic Crystals: The Rigorous Models of the Exact Absorbing Conditions Method. No show[Show abstract]Nataliya Yashina, Institute of Radiophysics and Electronics of National Academy of Ukraine, Ukraine. Michel Ney, Département Micro- Ondes, Lab- STICC/Telecom Bretagne, Technopôle Brest- Iroise, CS 8. Brest Cedex 3, France. Gerard Granet , Institut Pascal UMR 6. Blaise Pascal University 2. Landais, BP 8. 00. Aubière Cedex, 6. France. Konstantin Sirenko, O. Ya. Usikov Institute for Radiophysics and Electronics of National Academy of Sciences of Ukraine, 1. Ak. Proskura st., Kharkiv, 6. Ukraine. Yuriy Sirenko, L. N. Gumilyov Eurasian National University, 2, Satpayev st., Astana, 0. Kazakhstan. Hanna Sliusarenko, O. Ya. Usikov Institute for Radiophysics and Electronics of National Academy of Sciences of Ukraine, 1. Ak. Proskura st., Kharkiv, 6. Ukraine. New rigorous approaches to the analysis of 2- D photonic crystals with the “defects”, playing the role of the various resonant waveguide elements, are suggested in the paper. Several simple problems demonstrating the effectiveness of the proposed approaches and their potential for obtaining reliable results for theoretical and practical applications have been solved. Polarization- dependent Color Filters Based On All- dielectric Metasurfaces For Dynamic Modulation Of Color HSVPoster[Show abstract]Tao Ze, Huazhong University of Science and Technology, China. Here, we propose three kinds of color filters based on all- dielectric metasurfaces to control color hue, saturation and value (HSV) at the visible region, respectively. Designed with principle of magnetic resonances and structural anisotropy, the output of proposed color filters could be dynamically modulated by changing polarization state of light. Half Mode Substrate Integrated Waveguide (HMSIW) Notch Filters using Open Ring Resonators. Poster[Show abstract]Juan Hinojosa, Universidad Politécnica de Cartagena, Spain. Marcello Rossi, Universidad Politécnica de Cartagena, Spain. Alejandro Alvarez- Melcon, Universidad Politécnica de Cartagena, Spain. Félix Lorenzo Martínez- Viviente, Universidad Politécnica de Cartagena, Spain. An open ring resonator (ORR) is applied to a half mode substrate integrated waveguide (HMSIW) for the design of notch filters. This ORR cell is connected in parallel with a HMSIW section. The measured ORR- loaded HMSIW has the same behavior as a shunt series LC resonant circuit with a 3 d. B stop- band bandwidth lower than 5 % and insertion loss above 1. B. This ORR cell can be useful for the design of higher- order band- stop filters and reconfigurable HMSIW band- stop filters by placing a varactor diode connected to the open ring resonator. Ferromagnetic Resonance in Fibonacci- modulated Magnetic Metamaterials. Poster[Show abstract]Tomomi Suwa, Nara Institute of Science and Technology, Japan. Satoshi Tomita, Nara Institute of Science and Technology, Japan. Toshiyuki Kodama, Nara Institute of Science and Technology, Japan. Nobuyoshi Hosoito, Nara Institute of Science and Technology, Japan. Hisao Yanagi, Nara Institute of Science and Technology, Japan. Magnetic multilayers with Fibonacci sequence, referred to as magnetic Fibonacci- modulated multilayers (FMMs), are prepared using ultra- high vacuum vapor deposition. Experimental results by in- situ reflection high energy electron diffraction and ferromagnetic resonance demonstrate that the epitaxially- grown FMMs have quasi- isotropic magnetization. Stern- Gerlach Effects for Microwaves by Nonuniform Chiral Metamaterials. Poster[Show abstract]Satoshi Tomita, Nara Institute of Science and Technology, Japan. Kei Sawada, RIKEN SPring- 8 Center, Japan. Shotaro Nagai, Yamaguchi University, Japan. Atsushi Sanada, Osaka University, Japan. Nobuyuki Hisamoto, Kyoto Institute of Technology, Japan. Tetsuya Ueda, Kyoto Institute of Technology, Japan. Nonuniform chiral metamaterials with a refractive index gradient are embodied using the chiral meta- atoms that exhibit optical activities at microwave frequencies. We have succeeded in observing the Stern- Gerlach effects for microwaves by the nonuniform chiral metamaterials. Surface- phonon polaritons appearing on the surface of Si. C and the potential of their interaction with surface- plasmon polaritons. Poster[Show abstract]Kenichi Kasahara, Ritsumeikan University, Japan. Yuhto Yamamoto, Ritsumeikan University, Japan. Jyunichi Miyata, Ritsumeikan University, Japan. Nobuyuki Umemori, Ritsumeikan University, Japan. Toyonari Yaji, Ritsumeikan University, Japan. Nobuhiko Ozaki, Wakayama University, Japan. Naoki Ikeda, National Institute for Materials Science, Japan. Yoshimasa Sugimoto, National Institute for Materials Science, Japan. Circular slot antennas were formed in an array on the surface of Si. C. Surface phonon polariton signals were investigated by changing the distance between the neighboring antennas. It was possible that surface plasmon polaritons, in which electrons have a role, produced an effect on the spectral transformation. PT symmetry in a quasi- periodic structure with topological edge modes. Poster[Show abstract]Nicolas Rivolta, University of Mons, Belgium. Henri Benisty, Institut d'optique Graduate School, France. Bjorn Maes, University of Mons, Belgium. We report on an investigation of topological features of a 1. D photonic crystal within the PT symmetry context. We use the scattering characteristics to analyze the various properties of this structure. Quasi- periodicity induces the presence of bandgaps in the spectrum. Topology- dependent interface modes are induced in such gaps by a specific back- to- back arrangement. The behaviour of these interface modes still displays a non trivial dependence on the crystal, even in a passive system. On this basis, the addition of gain and loss generates another layer of complexity, with intriguing mode- merging behaviours, anisotropic transmission resonances and lasing effects. Fano Resonance Excitations In Slanted Hyperbolic Cavities. Poster[Show abstract]Fabio Vaianella, UMONS, Belgium. Bjorn Maes, UMONS, Belgium. Fano resonances are asymmetric line- shape scattering phenomena that arise from the interplay between a slowly varying background and a narrow resonant process. We show the possibility to excite Fano features in multilayered hyperbolic metamaterials based on a central slanted section. This work could be useful for sensing applications. Analytical solutions for waves in spherically- and cylindrically- symmetric inhomogeneous media. Poster[Show abstract]Andrey Novitsky, Technical University of Denmark, Denmark. Alexander Shalin, ITMO University, Russia. Andrei Lavrinenko, Technical University of Denmark, Denmark. We present the operator approach of finding material parameters of inhomogeneous bianisotropic media, the Maxwell equations in which have closed- form solutions. It is applicable to spherically- and cylindrically- symmetric media. Scattering theory for the inhomogeneous objects in question is developed. Modal Analysis of Meta Atoms using a Transfer Matrix Approach. ![]() ![]()
Fundamental interaction. In physics, the fundamental interactions, also known as fundamental forces, are the interactions that do not appear to be reducible to more basic interactions.There are four conventionally accepted fundamental interactions—gravitational, electromagnetic, strong nuclear, and weak nuclear.Each one is described mathematically as a field.The gravitational force is modelled as a continuous classical field. ![]() Nitro Pro Full adalah aplikasi yang sangat penting untuk mengedit atau membuat files berformat PDF. Dengan menggunakan aplikasi ini, anda dapat membuat. Search the world's information, including webpages, images, videos and more. Google has many special features to help you find exactly what you're looking for. The other three, part of the Standard Model of particle physics, are described as discrete quantum fields, and their interactions are each carried by a quantum, an elementary particle. In his 1. 68. 7 theory, Isaac Newton postulated space as an infinite and unalterable physical structure existing before, within, and around all objects while their states and relations unfold at a constant pace everywhere, thus absolute space and time. Inferring that all objects bearing mass approach at a constant rate, but collide by impact proportional to their masses, Newton inferred that matter exhibits an attractive force. His law of universal gravitation mathematically stated it to span the entire universe instantly (despite absolute time), or, if not actually a force, to be instant interaction among all objects (despite absolute space.) As conventionally interpreted, Newton's theory of motion modelled a central force without a communicating medium. Thus Newton's theory violated the first principle of mechanical philosophy, as stated by Descartes, No action at a distance. Conversely, during the 1. Michael Faraday inferred a field filling space and transmitting that force. Faraday conjectured that ultimately, all forces unified into one. In the early 1. 87. James Clerk Maxwell unified electricity and magnetism as effects of an electromagnetic field whose third consequence was light, travelling at constant speed in a vacuum. The electromagnetic field theory contradicted predictions of Newton's theory of motion, unless physical states of the luminiferous aether—presumed to fill all space whether within matter or in a vacuum and to manifest the electromagnetic field—aligned all phenomena and thereby held valid the Newtonian principle relativity or invariance. The exchange of bosons always carries energy and momentum between the fermions, thereby changing their speed and direction. The exchange may also transport a charge between the fermions, changing the charges of the fermions in the process (e. Since bosons carry one unit of angular momentum, the fermion's spin direction will flip from +? Planck's constant). Because an interaction results in fermions attracting and repelling each other, an older term for "interaction" is force. According to the present understanding, there are four fundamental interactions or forces: gravitation, electromagnetism, the weak interaction, and the strong interaction. Their magnitude and behaviour vary greatly, as described in the table below. Modern physics attempts to explain every observed physical phenomenon by these fundamental interactions. Moreover, reducing the number of different interaction types is seen as desirable. Two cases in point are the unification of. Electric and magnetic force into electromagnetism. The electromagnetic interaction and the weak interaction into the electroweak interaction; see below. Both magnitude ("relative strength") and "range", as given in the table, are meaningful only within a rather complex theoretical framework. It should also be noted that the table below lists properties of a conceptual scheme that is still the subject of ongoing research. Gravitation was the first interaction to be described mathematically. In ancient times, Aristotle hypothesized that objects of different masses fall at different rates. During the Scientific Revolution, Galileo Galilei experimentally determined that this was not the case — neglecting the friction due to air resistance, and buoyancy forces if an atmosphere is present (e. Earth at the same rate. Isaac Newton's law of Universal Gravitation (1. Our present- day understanding of gravitation stems from Albert Einstein's General Theory of Relativity of 1. Merging general relativity and quantum mechanics (or quantum field theory) into a more general theory of quantum gravity is an area of active research. It is hypothesized that gravitation is mediated by a massless spin- 2 particle called the graviton. The 1. 94. 7 discovery of the pion ushered in the modern era of particle physics. Hundreds of hadrons were discovered from the 1. Most notably. The pions were understood to be oscillations of vacuum condensates. Jun John Sakurai proposed the rho and omega vector bosons to be force carrying particles for approximate symmetries of isospin and hypercharge. Geoffrey Chew, Edward K. Burdett and Steven Frautschi grouped the heavier hadrons into families that could be understood as vibrational and rotational excitations of strings. While each of these approaches offered deep insights, no approach led directly to a fundamental theory. What Software Do I Need? Microsoft Project: The new custom home building scheduling template offered on this page has been tested to work with versions of Microsoft. The Microsoft Azure for Research program awards cloud computing time, training, and resources to help researchers achieve more. This Microsoft project training with Anthony Sequeira covers Microsoft's project management tool, including topics such as creating and linking tasks, tracking. Microsoft Project 2. A project is a finite endeavor - having specific start and completion dates - undertaken to create a unique product or service which brings about beneficial change or added value. This finite characteristic of projects stands in sharp contrast to processes, or operations, which are permanent or semi- permanent functional work to repetitively produce the same product or service." - - Wikipedia. Project management is becoming more and more of a priority with business. It is now recognized that the skills required to manage operations are quite different from the skills required to manage projects. Even excellent managers at the operational level will require some retraining when taking on a large project. Specifically, the software used in project management, Microsoft Project in this case, does not compare in most ways with the day- to- day software applications which may have been around for decades. For many corporations, training employees in project management techniques greatly enhances their versatility and their value to the organization.
Microsoft Project 2013 Tutorial Resources Reviews![]() Microsoft Project 2013 Tutorial Resources MiamiWhat is Project Management? It is the discipline of planning and organizing resources to bring about the. Cost is everything that has to do with money. It is composed of several variables: people, materials, equipment, profit, etc. Time expended for the project is the sum of all the time units taken to accomplish the tasks that lead to the production of a deliverable. Scope, also called specifications, is the definition of what the final results are suppposed to be. Quality is a major component of scope. A well- managed project, one that delivered what it was supposed to, within the specified timeframe and without spending more money than it was allocated, can be summarized by the following common phrase: "On time, on spec, on budget!". Creating ASP. NET Web Projects in Visual Studio 2. Tom Dykstra. This topic explains the options for creating ASP. NET web projects in Visual Studio 2. Update 3. Here are some of the new features for web development compared to earlier versions of Visual Studio: For information about how to create web projects for Azure Cloud Services or Azure Mobile Services, see Get Started with Azure Cloud Services and ASP. NET and Creating a Leaderboard App with Azure Mobile Services . NET Backend. Prerequisites. This article applies to Visual Studio 2. Update 3 installed. Web application projects versus web site projects. ASP. NET gives you a choice between two kinds of web projects: web application projects and web site projects. We recommend web application projects for new development, and this article applies only to web application projects. For more information, see Web Application Projects versus Web Site Projects in Visual Studio on the MSDN site. Overview of web application project creation. The following steps show how to create a web project: Click New Project in the Start page or in the File menu. In the New Project dialog, click Web in the left pane and ASP. NET Web Application in the middle pane. You can choose Cloud in the left pane to create an Azure Cloud Service, Azure Mobile Service, or Azure Web. Job. This topic doesn't cover those templates. In the right pane, click the Add Application Insights to Project check box if you want health and usage monitoring for your application. For more information, see Monitor performance in web applications. Specify project Name, Location, and other options, and then click OK. The New ASP. NET Project dialog appears. Click a template. If you want to add support for additional frameworks not included in the template, click the appropriate check box. In the example shown, you could add MVC and/or Web API to a Web Forms project.)If you want to add a unit test project, click Add unit tests. If you want a different authentication method than what the template provides by default, click Change Authentication. Create a web app or virtual machine in Azure. Visual Studio includes features that make it easy to work with Azure services for hosting web applications. For example, you can do all of the following right from the Visual Studio IDE: Create and manage web apps or virtual machines that make your application available over the Internet. View logs created by the application as it runs in the cloud. Run in debug mode remotely while the application runs in the cloud. Viiew and manage other Azure services such as SQL databases. You can create an Azure account that includes basic services such as web apps for free, and if you are an MSDN subscriber you can activate benefits that give you monthly credits toward additional Azure services. By default the New ASP. NET Project dialog box enables you to create a web app or virtual machine for a new web project. If you don't want to create a new web app or virtual machine, clear the Host in the cloud check box. The check box caption might be Host in the cloud or Create remote resources, and in either case the effect is the same. If you leave the check box selected, Visual Studio creates a web app in Azure App Service by default. You can use the drop- down box to change that to a Virtual Machine if you prefer. If you're not already signed in to Azure, you're prompted for Azure credentials. After you sign in, a dialog box enables you to configure the resources that Visual Studio will create for your project. The following illustration shows the dialog for a web app; different options appear if you choose to create a virtual machine. For more information about how to use this process for creating Azure resources, see Get Started with Azure and ASP. NET and Creating a virtual machine for a web site with Visual Studio. The remainder of this article provides more information about the available templates and their options. The article also introduces Bootstrap, the layout and theming framework used in the templates. Visual Studio 2. 01. Web Project Templates. Visual Studio uses templates to create web projects. A project template can create files and folders in the new project, install Nu. Get packages, and provide sample code for a rudimentary working application. Templates implement the latest web standards and are intended to demonstrate best practices for how to use ASP. NET technologies as well as give you a jump start on creating your own application. Visual Studio 2. 01. NET 4. 5 or later versions of the . NET framework: You can also install a Visual Studio extension that provides a Facebook template. For information about how to create projects that target . NET 4, see Visual Studio 2. Templates later in this topic. For information about how to create ASP. NET applications for mobile clients, see Mobile Support in ASP. NET. Empty Template. The Empty template provides the bare minimum folders and files for an ASP. NET web app, such as a project file (. Web. config file. You can add support for Web Forms, MVC, and/or Web API by using the check boxes under the Add folders and core references for: label. For the Empty template no authentication options are available. Authentication functionality is implemented in sample applications, and the Empty template does not create a sample application. Web Forms Template. The Web Forms framework provides the following features that let you rapidly build web sites that are rich in UI and data access features: A WYSIWYG designer in Visual Studio. Server controls that render HTML and that you can customize by setting properties and styles. A rich assortment of controls for data access and data display. An event model that exposes events which you can program like you would program a client application such as WPF. Automatic preservation of state (data) between HTTP requests. In general, creating a Web Forms application requires less programming effort than creating the same application by using the ASP. NET MVC framework. However, Web Forms is not just for rapid application development. There are many complex commercial applications and frameworks built on top of Web Forms. Because a Web Forms page and the controls on the page automatically generate much of the markup that's sent to the browser, you don't have the kind of fine- grained control over the HTML that ASP. NET MVC offers. The declarative model for configuring pages and controls minimizes the amount of code you have to write but hides some of the behavior of HTML and HTTP. For example, it's not always possible to specify exactly what markup might be generated by a control. The Web Forms framework doesn't lend itself as readily as ASP. NET MVC to patterns- based development practices such as test- driven development, separation of concerns, inversion of control, and dependency injection. If you want to write code factored that way, you can; it's just not as automatic as it is in the ASP. NET MVC framework. The ASP. NET Web Forms MVP project shows an approach that facilitates separation of concerns and testability while maintaining the rapid development that Web Forms was built to deliver. Microsoft Share. Point is built on Web Forms MVP. The Web Forms template creates a sample Web Forms application that uses Bootstrap to provide responsive design and theming features. The following illustration shows the home page. For more information about Web Forms, see ASP. NET Web Forms. For information about what the Web Forms template does for you, see Building a basic Web Forms application using Visual Studio 2. MVC Template. ASP. NET MVC was designed to facilitate patterns- based development practices such as test- driven development, separation of concerns, inversion of control, and dependency injection. The framework encourages separating the business logic layer of a web application from its presentation layer.By dividing the application into models (M), views (V), and controllers (C), ASP.NET MVC can make it easier to manage complexity in larger applications.With ASP. NET MVC, you work more directly with HTML and HTTP than in Web Forms. For example, Web Forms can automatically preserve state between HTTP requests, but you have to code that explicitly in MVC. The advantage of the MVC model is that it enables you to take complete control over exactly what your application is doing and how it behaves in the web environment. The disadvantage is that you have to write more code. Over 1,0. 00,0. 00 Print & Digital Sheet Music Titles"Sheet Music Plus is the BEST! 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