Angular wikipedia смотреть последние обновления за сегодня на .
You will be able to learn how to integrate API to the angular app and how data binding works in angular. If you want to know something more about the app leave down the comment below. Github Link: - 🤍 Completed App Link:- 🤍
In this Angular tutorial, we build use the Wikipedia API to build a search application with pagination functionality. We made use of some Angular inbuilt functions like: - The Forms Module - Http Client Module - Ng for and Ng if directives - Dependency injection and so much more... We also designed the page using bootstrap 5. As we all know, Wikipedia is a free online encyclopedia, created and edited by volunteers around the world and hosted by the Wikimedia Foundation. Chapters 0:00 - Introduction and project preview 03:54 - Page design with bootstrap 5 06:28 - Overview of the Wikipedia API 08:15 - Generate Angular Service and Create the REST API 12:18 - Display the data coming from the service in our component view 22:18 - Add Pagination 27:28 - Outro Topic Angular Search App using the Wikipedia API with Pagination Wikipedia API Doc: 👉🤍 Source Code: 👉🤍 Join my telegram community: 👉 🤍 For more resources on Web Development: 👉 🤍 Follow Me on Twitter: 👉 🤍 Leave a like and subscribe for more awesome tutorials. Thanks a lot for watching ❤
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#angular #APIWikipedia #angular13 En este tutorial hemos hecho un buscador con la API de Wikipedia. Utilizamos Angular 13, y principalmente mucha programación reactiva. La mejor manera de aprender es haciendo proyectos. Y en esta ocasión creamos un buscador de artículos con la API de Wikipedia. 🔍 🔖 Temario consumiendo API de Wikipedia: . 0:00:00 Intro Tutorial . 0:01:03 Analizamos la API Wikipedia . 0:02:07 Creamos proyecto de Angular 13 . 0:03:17 Creamos el módulo de Search . 0:06:44 Modificamos el app.component . 0:08:03 Añadimos estilos globales . 0:11:42 Estilos para el formulario . 0:13:40 Estilos para el app.component . 0:15:23 Creamos service para la API de Wikipedia . 0:23:59 Probamos la petición a la API . 0:25:50 Creamos interfaces . 0:28:30 Usamos el operador pluck de RxJS . 0:30:29 Trabajamos con el Buscador y formularios reactivos en Angular 13 . 0:35:30 Decorador 🤍Output Angular 13 . 0:40:32 Mejoramos el código del Buscador con RxJS . 0:44:51 Generamos la página de articulos . 0:46:36 Decorador 🤍Input Angular 13 . 0:53:22 Estilos para los articulos . 0:55:02 Despedida Se parte de la comunidad dominicode! ¿Quieres acceso exclusivo a nuestro contenido? 🤍 Curso de Angular 9 Udemy: 🤍 📺 Suscríbete al canal: 🤍 📸 Instagram: 🤍 🌎 Website: 🤍 📱 Twitter: 🤍 📝 LinkedIn: 🤍 📂 GitHub: 🤍 🎥 Twitch: 🤍
This is an audio version of the Wikipedia Article: 🤍 00:01:23 1 Units 00:02:01 2 Circular motion 00:02:29 2.1 Oscillations of a spring 00:03:56 2.2 LC circuits 00:04:49 3 See also 00:05:05 4 References and notes 00:05:41 5 External links Listening is a more natural way of learning, when compared to reading. Written language only began at around 3200 BC, but spoken language has existed long ago. Learning by listening is a great way to: - increases imagination and understanding - improves your listening skills - improves your own spoken accent - learn while on the move - reduce eye strain Now learn the vast amount of general knowledge available on Wikipedia through audio (audio article). You could even learn subconsciously by playing the audio while you are sleeping! If you are planning to listen a lot, you could try using a bone conduction headphone, or a standard speaker instead of an earphone. Listen on Google Assistant through Extra Audio: 🤍 Other Wikipedia audio articles at: 🤍 Upload your own Wikipedia articles through: 🤍 "There is only one good, knowledge, and one evil, ignorance." - Socrates SUMMARY = In physics, angular frequency ω (also referred to by the terms angular speed, radial frequency, circular frequency, orbital frequency, radian frequency, and pulsatance) is a scalar measure of rotation rate. It refers to the angular displacement per unit time (e.g., in rotation) or the rate of change of the phase of a sinusoidal waveform (e.g., in oscillations and waves), or as the rate of change of the argument of the sine function. Angular frequency (or angular speed) is the magnitude of the vector quantity angular velocity. The term angular frequency vector ω → {\displaystyle {\vec {\omega }}} is sometimes used as a synonym for the vector quantity angular velocity.One revolution is equal to 2π radians, hence ω = 2 π T = 2 π f , {\displaystyle \omega ={{2\pi } \over T}={2\pi f},} where: ω is the angular frequency or angular speed (measured in radians per second), T is the period (measured in seconds), f is the ordinary frequency (measured in hertz) (sometimes symbolised with ν).
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This is an audio version of the Wikipedia Article: 🤍 00:00:46 1 Angular velocity of a particle 00:01:59 1.1 Particle in two dimensions 00:02:10 1.2 Particle in three dimensions 00:08:11 1.2.1 Addition of angular velocity vectors 00:10:36 2 Angular velocity vector for a frame 00:14:17 2.1 Components from the vectors of the frame 00:16:01 2.2 Components from Euler angles 00:18:02 3 Angular velocity tensor 00:20:53 3.1 Calculation from the orientation matrix 00:22:12 4 Properties of angular velocity tensors 00:24:59 4.1 Duality with respect to the velocity vector 00:25:32 4.2 Exponential of iW/i 00:26:37 4.3 iW/i is skew-symmetric 00:27:37 4.4 Coordinate-free description 00:30:36 4.5 Angular velocity as a vector field 00:35:34 5 Rigid body considerations 00:36:05 5.1 Consistency 00:44:47 6 See also 00:48:50 7 References Listening is a more natural way of learning, when compared to reading. Written language only began at around 3200 BC, but spoken language has existed long ago. Learning by listening is a great way to: - increases imagination and understanding - improves your listening skills - improves your own spoken accent - learn while on the move - reduce eye strain Now learn the vast amount of general knowledge available on Wikipedia through audio (audio article). You could even learn subconsciously by playing the audio while you are sleeping! If you are planning to listen a lot, you could try using a bone conduction headphone, or a standard speaker instead of an earphone. Listen on Google Assistant through Extra Audio: 🤍 Other Wikipedia audio articles at: 🤍 Upload your own Wikipedia articles through: 🤍 "There is only one good, knowledge, and one evil, ignorance." - Socrates SUMMARY = In physics, the angular velocity of a particle is the rate at which it rotates around a chosen center point: that is, the time rate of change of its angular displacement relative to the origin (i.e. in layman's terms: how quickly an object goes around something over a period of time - e.g. how fast the earth orbits the sun). It is measured in angle per unit time, radians per second in SI units, and is usually represented by the symbol omega (ω, sometimes Ω). By convention, positive angular velocity indicates counter-clockwise rotation, while negative is clockwise. For example, a geostationary satellite completes one orbit per day above the equator, or 360 degrees per 24 hours, and has angular velocity ω = 360 / 24 = 15 degrees per hour, or 2π / 24 ≈ 0.26 radians per hour. If angle is measured in radians, the linear velocity is the radius times the angular velocity, v = r ω {\displaystyle v=r\omega } . With orbital radius 42,000 km from the earth's center, the satellite's speed through space is thus v = 42,000 × 0.26 ≈ 11,000 km/hr. The angular velocity is positive since the satellite travels eastward with the Earth's rotation (counter-clockwise from above the north pole.) In three dimensions, angular velocity is a pseudovector, with its magnitude measuring the rate of rotation, and its direction pointing along the axis of rotation (perpendicular to the radius and velocity vectors). The up-or-down orientation of angular velocity is conventionally specified by the right-hand rule.
This is an audio version of the Wikipedia Article: 🤍 00:00:22 1 Technologies 00:00:57 1.1 MET sensors 00:01:57 2 Uses Listening is a more natural way of learning, when compared to reading. Written language only began at around 3200 BC, but spoken language has existed long ago. Learning by listening is a great way to: - increases imagination and understanding - improves your listening skills - improves your own spoken accent - learn while on the move - reduce eye strain Now learn the vast amount of general knowledge available on Wikipedia through audio (audio article). You could even learn subconsciously by playing the audio while you are sleeping! If you are planning to listen a lot, you could try using a bone conduction headphone, or a standard speaker instead of an earphone. Listen on Google Assistant through Extra Audio: 🤍 Other Wikipedia audio articles at: 🤍 Upload your own Wikipedia articles through: 🤍 Speaking Rate: 0.9947146280194815 Voice name: en-US-Wavenet-A "I cannot teach anybody anything, I can only make them think." - Socrates SUMMARY = Angular rate sensors are devices that directly measure angular rate, without integration in conditioning electronics. Gyroscopes also measure angular rate. Generally gyroscopes are able to measure a constant rotation rate, while rate sensors also include devices with a low cut off frequency that is other than zero.
See: 🤍 This video explains how cats turn around while having zero net angular momentum during the fall. Cat falling seen from a good angle to see the rotation: 🤍 Cat falling from around the minimal height to turn around. 🤍 Cat in zero-g spins fast for several seconds: 🤍 Falling cat movie from the year 1890: 🤍 A talk at MIT dealing with the falling cat at time 20:30: 🤍 #VeritasiumContest
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This is an audio version of the Wikipedia Article: 🤍 00:00:17 1 Mathematical definition 00:00:55 1.1 Equation of Motion 00:01:59 2 See also Listening is a more natural way of learning, when compared to reading. Written language only began at around 3200 BC, but spoken language has existed long ago. Learning by listening is a great way to: - increases imagination and understanding - improves your listening skills - improves your own spoken accent - learn while on the move - reduce eye strain Now learn the vast amount of general knowledge available on Wikipedia through audio (audio article). You could even learn subconsciously by playing the audio while you are sleeping! If you are planning to listen a lot, you could try using a bone conduction headphone, or a standard speaker instead of an earphone. Listen on Google Assistant through Extra Audio: 🤍 Other Wikipedia audio articles at: 🤍 Upload your own Wikipedia articles through: 🤍 "There is only one good, knowledge, and one evil, ignorance." - Socrates SUMMARY = Angular acceleration is the rate of change of angular velocity. In three dimensions, it is a pseudovector. In SI units, it is measured in radians per second squared (rad/s2), and is usually denoted by the Greek letter alpha (α).
Topics covered: 00:00 | Intro 00:20 | What is Angular? 01:40 | Features 02:35 | Why Use Angular? 02:50 | When to Use Angular 03:05 | When Not to Use Angular 03:25 | Pros and cons of Angular 03:55 | Statistics Content sources: en.wikipedia.org/wiki/Angular_(web_framework) 🤍 🤍y/14-reasons-to-use-angular-for-web-development-a82e0b5bff10 🤍 🤍 🤍 🤍 🤍 Useful resources: 🤍 🤍 🤍 If you want to help me grow, please subscribe. Intro to Angular. #angular
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In which Hank just gets really nerdy for a while trying to figure out whether it's possible to encode and decode all 24 TB of Wikipedia onto and from a single QR code. Please feel free to check my math and let me know if I got anything wrong. Minute Physics: How Far Can Legolas See: 🤍 Decoding a QR Code by hand: 🤍 (which does a great job of explaining exactly how QR codes work.) I know I didn't correct for the distortion at the edge of the wide-angle shot, but Henry and I went through the calculation and found that it didn't affect the overall result. Subscribe to our newsletter! 🤍 And join the community at 🤍 🤍 Help transcribe videos - 🤍 John's twitter - 🤍 John's tumblr - 🤍 Hank's twitter - 🤍 Hank's tumblr - 🤍
Command:- set-executionpolicy remotesigned In This Video We Will See How To Fix Cannot Be Loaded Because Running Scripts is Disabled on This System or Angular CLI Commands Not Working Here Are The Steps To Fix Cannot Be Loaded Because Running Scripts is Disabled on This System or Angular CLI Commands Not Working 1. Right-Click on Start Button 2. Click Windows PowerShell (Admin) 3. Type set-executionpolicy remotesigned & Hit Enter on Your Keyboard 4. Now Type Captial A & Hit Enter on Your Keyboard 5. Minimize Windows PowerShell 6. Type Any Angular CLI Command & Hit Enter To Check if it is Working 7. Done! Contact Us Facebook: 🤍 Twitter: 🤍 Wikipedia: 🤍 YouTube: 🤍 Don't Forget To Like Share And Subscribe
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This is an audio version of the Wikipedia Article: 🤍 00:00:51 1 Example 00:01:45 2 Measurements 00:03:36 3 Three dimensions 00:04:32 3.1 Matrix notation 00:05:38 4 Infinitesimal rotation matrices 00:07:32 4.1 Generators of rotations 00:13:38 4.2 Relationship with Lie algebras 00:14:46 4.3 Exponential map 00:15:18 5 See also 00:17:14 6 References 00:17:42 I + A 00:17:46 See also Listening is a more natural way of learning, when compared to reading. Written language only began at around 3200 BC, but spoken language has existed long ago. Learning by listening is a great way to: - increases imagination and understanding - improves your listening skills - improves your own spoken accent - learn while on the move - reduce eye strain Now learn the vast amount of general knowledge available on Wikipedia through audio (audio article). You could even learn subconsciously by playing the audio while you are sleeping! If you are planning to listen a lot, you could try using a bone conduction headphone, or a standard speaker instead of an earphone. Listen on Google Assistant through Extra Audio: 🤍 Other Wikipedia audio articles at: 🤍 Upload your own Wikipedia articles through: 🤍 "There is only one good, knowledge, and one evil, ignorance." - Socrates SUMMARY = Angular displacement of a body is the angle in radians (degrees, revolutions) through which a point revolves around a centre or line has been rotated in a specified sense about a specified axis. When a body rotates about its axis, the motion cannot simply be analyzed as a particle, as in circular motion it undergoes a changing velocity and acceleration at any time (t). When dealing with the rotation of a body, it becomes simpler to consider the body itself rigid. A body is generally considered rigid when the separations between all the particles remains constant throughout the bodys motion, so for example parts of its mass are not flying off. In a realistic sense, all things can be deformable, however this impact is minimal and negligible. Thus the rotation of a rigid body over a fixed axis is referred to as rotational motion.
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Lets now create the 'Manage Bookmarks' View
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See: 🤍 This explains how cats turn around while having zero net angular momentum during a fall. Cat falling seen from a good angle to see the rotation: 🤍 Cat falling from around the minimal height to turn around. 🤍 Cat in zero-g spins fast for several seconds: 🤍 Falling cat movie from the year 1890: 🤍 A talk at MIT dealing with the falling cat at time 20:30: 🤍
This is an audio version of the Wikipedia Article: Angular momentum 00:02:42 1 Angular momentum in classical mechanics 00:02:53 1.1 Definition 00:03:01 1.1.1 Scalar — angular momentum in two dimensions 00:08:12 1.1.2 Scalar — angular momentum from Lagrangian mechanics 00:10:55 1.1.3 Vector — angular momentum in three dimensions 00:16:32 1.2 Discussion 00:24:13 1.2.1 Angular momentum and torque 00:30:28 1.3 Conservation of angular momentum 00:35:15 1.4 Angular momentum in orbital mechanics 00:36:26 1.5 Solid bodies 00:38:19 1.6 Collection of particles 00:38:28 1.6.1 Center of mass 00:50:13 1.6.2 Simplifications 00:50:21 1.6.2.1 Single particle 00:52:27 1.6.2.2 Fixed center of mass 00:54:02 2 Angular momentum (modern definition) 00:59:22 3 Angular momentum in quantum mechanics 00:59:48 3.1 Spin, orbital, and total angular momentum 01:01:39 3.2 Quantization 01:02:02 3.3 Uncertainty 01:03:25 3.4 Total angular momentum as generator of rotations 01:05:27 4 Angular momentum in electrodynamics 01:07:35 5 Angular momentum in optics 01:09:08 6 History 01:10:54 6.1 The Law of Areas 01:11:57 6.1.1 Newton's derivation 01:12:05 6.1.2 Conservation of angular momentum in the Law of Areas 01:14:10 6.2 After Newton 01:15:17 7 See also 01:17:36 8 Footnotes Listening is a more natural way of learning, when compared to reading. Written language only began at around 3200 BC, but spoken language has existed long ago. Learning by listening is a great way to: - increases imagination and understanding - improves your listening skills - improves your own spoken accent - learn while on the move - reduce eye strain Now learn the vast amount of general knowledge available on Wikipedia through audio (audio article). You could even learn subconsciously by playing the audio while you are sleeping! If you are planning to listen a lot, you could try using a bone conduction headphone, or a standard speaker instead of an earphone. You can find other Wikipedia audio articles too at: 🤍 You can upload your own Wikipedia articles through: 🤍 "The only true wisdom is in knowing you know nothing." - Socrates SUMMARY = In physics, angular momentum (rarely, moment of momentum or rotational momentum) is the rotational equivalent of linear momentum. It is an important quantity in physics because it is a conserved quantity—the total angular momentum of a system remains constant unless acted on by an external torque. In three dimensions, the angular momentum for a point particle is a pseudovector r × p, the cross product of the particle's position vector r (relative to some origin) and its momentum vector p = mv. This definition can be applied to each point in continua like solids or fluids, or physical fields. Unlike momentum, angular momentum does depend on where the origin is chosen, since the particle's position is measured from it. The angular momentum vector of a point particle is parallel and directly proportional to the angular velocity vector ω of the particle (how fast its angular position changes), where the constant of proportionality depends on both the mass of the particle and its distance from origin. For continuous rigid bodies, though, the spin angular velocity ω is proportional but not always parallel to the spin angular momentum of the object, making the constant of proportionality I (called the moment of inertia) a second-rank tensor rather than a scalar. Angular momentum is additive; the total angular momentum of a system is the (pseudo)vector sum of the angular momenta. For continua or fields one uses integration. The total angular momentum of any rigid body can be split into the sum of two main components: the angular momentum of the centre of mass (with a mass equal to the total mass) about the origin, plus the spin angular momentum of the object about the centre of mass. Torque can be defined as the rate of change of angular momentum, analogous to force. The conservation of angular momentum helps explain many observed phenomena, for example the increase in rotational speed of a spinning figure skater as the skater's arms are contracted, the high rotational rates of neutron stars, the Coriolis effect, and precession of tops and gyroscopes. Applications include the gyrocompass, control moment gyroscope, inertial guidance systems, reaction wheels, flying discs or Frisbees, and Earth's rotation to name a few. In general, conservation does limit the possible motion of a system, but does not uniquely determine what the exact motion is. In quantum mechanics, angular momentum is an operator with quantized eigenvalues. Angular momentum is subject to the Heisenberg uncertainty principle, meaning that at any time, only one component can be measured with definite precision; the other two cannot. Also, the "spin" of elementary particles does not correspond to literal spinning motion.
In this video, we will understand about HTTP Protocol.
This is an audio version of the Wikipedia Article: 🤍 00:01:34 1 Definition 00:03:11 2 Proof that the specific relative angular momentum is constant under ideal conditions 00:03:26 2.1 Prerequisites 00:06:47 2.2 Proof 00:10:43 3 Kepler's laws of planetary motion 00:11:02 3.1 First law 00:16:11 3.2 Second law 00:17:57 3.3 Third law 00:19:45 4 See also Listening is a more natural way of learning, when compared to reading. Written language only began at around 3200 BC, but spoken language has existed long ago. Learning by listening is a great way to: - increases imagination and understanding - improves your listening skills - improves your own spoken accent - learn while on the move - reduce eye strain Now learn the vast amount of general knowledge available on Wikipedia through audio (audio article). You could even learn subconsciously by playing the audio while you are sleeping! If you are planning to listen a lot, you could try using a bone conduction headphone, or a standard speaker instead of an earphone. Listen on Google Assistant through Extra Audio: 🤍 Other Wikipedia audio articles at: 🤍 Upload your own Wikipedia articles through: 🤍 Speaking Rate: 0.8865760495792084 Voice name: en-GB-Wavenet-A "I cannot teach anybody anything, I can only make them think." - Socrates SUMMARY = See also: Classical central-force problemIn celestial mechanics the specific relative angular momentum h → {\displaystyle {\vec {h}}} plays a pivotal role in the analysis of the two-body problem. One can show that it is a constant vector for a given orbit under ideal conditions. This essentially proves Kepler's second law. It's called specific angular momentum because it's not the actual angular momentum L → {\displaystyle {\vec {L}}} , but the angular momentum per mass. Thus, the word "specific" in this term is short for "mass-specific" or divided-by-mass: h → = L → m {\displaystyle {\vec {h}}={\frac {\vec {L}}{m}}} Thus the SI unit is: m2·s−1. m {\displaystyle m} denotes the reduced mass 1 m = 1 m 1 + 1 m 2 {\displaystyle {\frac {1}{m}}={\frac {1}{m_{1}}}+{\frac {1}{m_{2}}}} .
Understand in-depth about Dependency Injection and how it works with Angular Service. 00:00 - Dependency Injection 02:38 - Dependency Example 04:02 - Implementation of Dependency Example 14:02 - Run Dependency Example 16:29 - Understand the Dependency Problem 20:51 - Solving the Dependency Problem using Dependency Injection 24:30 - How Dependency Injection works in Angular?
What is GraphQL? Learn how it compares to REST and why developers love this query language for reading and mutating data in APIs 🤍 GraphQL API Docs 🤍 SpaceX GraphQL API 🤍 #dev#graphql #100SecondsOfCode Install the quiz app 🤓 iOS 🤍 Android 🤍 Upgrade to Fireship PRO at 🤍 Use code lORhwXd2 for 25% off your first payment. My VS Code Theme - Atom One Dark - vscode-icons - Fira Code Font
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Save 10% off any upcoming FITC event with discount code 'youtube'. See 🤍 for details. Overview Angular 2 is a powerful framework that lets you create fast and scalable web apps with clean and readable code. With the lessons learned from previous web frameworks and the advantages of modern web technologies, the Angular team has created a framework that will push the limits of what SPAs are capable of. In this session we’ll go through building an Angular 2.0 app from the ground up. In the process, you will learn how it handles core concepts like components, templates, services, and routing. You’ll also see how angular takes advantage of ES6 modules, Web Components, and TypeScript. By the end of the session, you’ll have a good understanding of why you might want to use Angular 2 for your next project and how to get started. Rob McDiarmid Full-Stack Developer, Konrad Group 🤍 Check out all our events 🤍 🤍
Angular artery | Arteries of head and neck | 3D Human Anatomy | Organs Angular artery - 🤍 The angular artery is the terminal part of the facial artery; it ascends to the medial angle of the eye's orbit, imbedded in the fibers of the angular head of the quadratus labii superioris, and accompanied by the angular vein. On the cheek it distributes branches which anastomose with the infraorbital; after supplying the lacrimal sac and orbicularis oculi, it ends by anastomosing with the dorsal nasal branch of the ophthalmic artery. Arteries of head and neck | 3D Human Anatomy | Organs #arteries, #Anatomy, #3DAnatomy, #3DHumanAnatomy, #arteriesandveins, #structureofarteries, #majorarteries, #humanarteries 3D Human Anatomy | Arteries of the head and neck: video review of all the arteries of the head and neck and face their anatomy placement. Arteries (from Greek ἀρτηρία (artēria), meaning "windpipe, artery")[1] are blood vessels that carry blood away from the heart. While most arteries carry oxygenated blood, there are two exceptions to this, the pulmonary and the umbilical arteries. The effective arterial blood volume is that extracellular fluid which fills the arterial system. The circulatory system is vital for sustaining life. Its normal functioning is responsible for the delivery of oxygen and nutrients to all cells, as well as the removal of carbon dioxide and waste products, the maintenance of optimum pH, and the circulation of proteins and cells of the immune system. In developed countries, the two leading causes of death, myocardial infarction (heart attack), and stroke, may each directly result from an arterial system that has been slowly and progressively compromised by years of deterioration. Head and neck anatomy focuses on the structures of the head and neck of the human body, including the brain, bones, muscles, blood vessels, nerves, glands, nose, mouth, teeth, tongue, and throat. It is an area frequently studied in depth by surgeons, dentists, dental technicians, and speech language pathologists. Blood circulates from the upper systemic loop originating at the aortic arch, and includes: the brachiocephalic artery, left common carotid and left subclavian artery. The head and neck are emptied of blood by the subclavian vein and jugular vein. Right side of neck dissection showing the brachiocephalic, right common carotid artery and its branches The brachiocephalic artery or trunk is the first and largest artery that branches to form the right common carotid artery and the right subclavian artery. This artery provides blood to the right upper chest, right arm, neck, and head, through a branch called right vertebral artery. The right and left vertebral artery feed into the basilar artery and upward to the Posterior cerebral artery, which provides most of the brain with oxygenated blood. The posterior cerebral artery and the posterior communicating artery are within the circle of Willis. The left common carotid artery divides to form the: internal carotid artery (ICA) and an external carotid artery (ECA). The ICA supplies the brain. The ECA supplies the neck and face. The left subclavian artery and the right subclavian artery, one on each side of the body form the internal thoracic artery, the vertebral artery, the thyrocervical trunk, and the costocervical trunk. The subclavian becomes the axiliary artery at the lateral border of the first rib. The left subclavian artery also provides blood to the left upper chest and left arm. The Blood–brain barrier (BBB) is semi-permeable membrane that controls the capillary leak potential of the circulatory system. In most parts of the body, the smallest blood vessels, called capillaries, are lined with endothelial cells, which have small spaces between each individual cell so substances can move readily between the inside and the outside of the capillary. This is not in the case of brain. In the brain, the endothelial cells fit tightly together to create a tight junction and substances cannot pass out of the bloodstream. Specialized glial cells called astrocytes form a tight junction or protective barrier around brain blood vessels and may be important in the development of the BBB. Astrocytes may be also be responsible for transporting ions (electrolytes) from the brain to the blood. Blood from the brain and neck flows from: (1) within the cranium via the internal jugular veins, a continuation of the sigmoid sinuses. The right and left external jugular veins drain from the parotid glands, facial muscles, scalp into the subclavian veins. The right and left vertebral veins drain the vertebrae and muscles into the right subclavian vein and into the superior vena cava, into the right atrium of the heart. The description of: en.wikipedia.org/wiki/Human_body Our video review of human anatomy: youtube.com/user/AQXAnatomy
On est de retours pour les actus du dev du moi de juin. Nous allons parler des dernières mises-à-jour de django. Nous allons aussi parler d'Angular 14, de Github Copilot, d'HTTP/3, d'urllib3 et de l'OpenJS World 2022 Ici quelques liens interessants: Dernières mises à jour pour Django: 🤍 🤍 SSRF: 🤍 LFI, RFI: 🤍 Angular 14 🤍 Etre payer pour contribuer à urllib 3: 🤍 🤍 🤍 OpenJS World: 🤍 🤍 HTTP/3 (QUIC): 🤍 🤍 Github Copilot: 🤍 En plus de cela ici encore mon lien discord si jamais vous voulez nous rejoindre: 🤍 Bonne semaine à tous
Probably inspired by one of Moby's short tracks off his 'Ambient' album, which according to Wikipedia "received a mediocre critical reception." I did not know this at the time.
According to Wikipedia : Angular (commonly referred to as "Angular 2+" or "Angular v2 and above") is a TypeScript-based open-source web application framework led by the Angular Team at Google and by a community of individuals and corporations. Angular is a complete rewrite from the same team that built AngularJS. Use below line of code in command line to install Angular. npm install -g 🤍angular/cli
Multi-criteria decision making which is a sub-discipline of operations research explicitly evaluates multiple conflicting criteria in decision making. The consistency-driven pairwise comparisons method is a valuable tool for solving multi-criteria decision making problems. It is a powerful inference tool that could be used for knowledge acquisition for the knowledge management system. In fact, pairwise comparisons are basics for practically the entire science and have been used for projects of national importance. This project had implemented an application basing the consistency-driven pairwise comparisons method. This application could be used as a supplement of any expert or knowledge management system. Multi-criteria Decision Making(MCDM) Consistency-driven Pairwise comparisons Method Inconsistency analysis Github: Frontend: 🤍 Backend: 🤍 This project is made under the guidance and supervision of Prof. Koczkodaj 🤍
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This is an audio version of the Wikipedia Article: 🤍 00:00:15 1 Introduction 00:02:47 2 Mathematical expression 00:08:28 3 See also Listening is a more natural way of learning, when compared to reading. Written language only began at around 3200 BC, but spoken language has existed long ago. Learning by listening is a great way to: - increases imagination and understanding - improves your listening skills - improves your own spoken accent - learn while on the move - reduce eye strain Now learn the vast amount of general knowledge available on Wikipedia through audio (audio article). You could even learn subconsciously by playing the audio while you are sleeping! If you are planning to listen a lot, you could try using a bone conduction headphone, or a standard speaker instead of an earphone. Listen on Google Assistant through Extra Audio: 🤍 Other Wikipedia audio articles at: 🤍 Upload your own Wikipedia articles through: 🤍 Speaking Rate: 0.7331421991282568 Voice name: en-AU-Wavenet-A "I cannot teach anybody anything, I can only make them think." - Socrates SUMMARY = The spin angular momentum of light (SAM) is the component of angular momentum of light that is associated with the quantum spin and the wave's circular or elliptical polarization.
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This is an audio version of the Wikipedia Article: 🤍 00:00:42 1 Introduction 00:04:57 2 Mathematical expressions for the orbital angular momentum of light 00:09:09 3 Production of OAM states 00:12:24 3.1 Recent advances 00:14:29 4 Potential use in telecommunications 00:15:34 5 Measuring the orbital angular momentum of light 00:17:19 5.1 Counting spiral fringes 00:18:18 5.2 Diffractive holographic filters 00:19:23 5.3 Other methods 00:19:50 6 Quantum-information applications Listening is a more natural way of learning, when compared to reading. Written language only began at around 3200 BC, but spoken language has existed long ago. Learning by listening is a great way to: - increases imagination and understanding - improves your listening skills - improves your own spoken accent - learn while on the move - reduce eye strain Now learn the vast amount of general knowledge available on Wikipedia through audio (audio article). You could even learn subconsciously by playing the audio while you are sleeping! If you are planning to listen a lot, you could try using a bone conduction headphone, or a standard speaker instead of an earphone. Listen on Google Assistant through Extra Audio: 🤍 Other Wikipedia audio articles at: 🤍 Upload your own Wikipedia articles through: 🤍 Speaking Rate: 0.7906214603670698 Voice name: en-AU-Wavenet-A "I cannot teach anybody anything, I can only make them think." - Socrates SUMMARY = The orbital angular momentum of light (OAM) is the component of angular momentum of a light beam that is dependent on the field spatial distribution, and not on the polarization. It can be further split into an internal and an external OAM. The internal OAM is an origin-independent angular momentum of a light beam that can be associated with a helical or twisted wavefront. The external OAM is the origin-dependent angular momentum that can be obtained as cross product of the light beam position (center of the beam) and its total linear momentum.
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