ONE OF THE BEST ANIME

                                              ONE OF THE BEST ANIME

DEATH NOTE

Death Note (Japanese: デスノート Hepburn: Desu Nōto^?) is a Japanese manga series written by Tsugumi Ohba and illustrated byTakeshi Obata. The story follows Light Yagami, a high school student who discovers a supernatural notebook from a shinigaminamed Ryuk that grants its user the ability to kill anyone whose name and face they know. The series centers around Light's subsequent attempts to create and rule a world "cleansed of evil" as "God" using the notebook, and the efforts of a detective known as L to stop him.

YuYu Hakusho 

YuYu Hakusho (Japanese: 幽☆遊☆白書 Hepburn: YūYū Hakusho^?, lit. "Ghost Files" or "Poltergeist Report") is a Japanese mangaseries written and illustrated by Yoshihiro Togashi. The series tells the story of Yusuke Urameshi, a teenage delinquent who is struck and killed by a car while attempting to save a child's life. After a number of tests presented to him by Koenma, the son of the ruler of the afterlife Underworld, Yusuke is revived and appointed the title of "Underworld Detective", with which he must investigate various cases involving demons and apparitions in the human world. The manga becomes more focused on martial arts battles and tournaments as it progresses. Togashi began creating YuYu Hakusho around November 1990, basing the series on his interests in the occult and horror films and an influence of Buddhist mythology.

One Piece 

One Piece (Japanese: ワンピース Hepburn: Wan Pīsu^?) is a Japanese manga series written and illustrated by Eiichiro Oda. It has been serialized in Shueisha's Weekly Shōnen Jump magazine since July 19, 1997, with the chapters collected into seventy-eighttankōbon volumes to date. One Piece follows the adventures of Monkey D. Luffy, a young man whose body gains the properties of rubber after unintentionally eating a Devil Fruit. With his diverse crew of pirates, named the Straw Hat Pirates, Luffy explores the ocean in search of the world's ultimate treasure known as "One Piece" in order to become the next Pirate King.

Reference:wikipedia

Best sites to learn Programming

                 Best sites to learn Programming

Codecademy

Codecademy is the most famous website to teach you to code interactively, and lots of courses are there. It offers courses like Web Fundamentals, PHP, JavaScript, jQuery, Python, Ruby and APIs.

Code Avengers

 

Though it offers HTML5, CSS3 and JavaScript course for now courses are well structured and designed. At the end of each lesson you also get to play a mini game to release your cumulated stress, and keep you going for longer.

Code School

Code School is also one of the best site to learn topic in depth.

Treehouse

Treehouse courses are more project-oriented than language-oriented, so they are perfect for novice programmer with a planned purpose, you can learn like to build a new website, responsive website, php, java and lots other languages. Here you have to pay 25$ per month for basic course and 49$ to get more features like watch talk from industry leaders and exclusive bonus content. You can access the whole site content for 14 days which is a trail. You access the trail sign up is required.

LearnStreet

It currently offers JavaScript, Python and Ruby courses at beginner level.

Khan Academy

It does not preach any specific programming language, but the code pattern it adopts can be applied anywhere, as a majority of languages share the similar programming pattern.

So try these sites
Learn and Implement...
ENJOY..

                                             

                            What Are Memristors?

What is a memristor? Memristors are basically a fourth class of electrical circuit, joining the resistor, the capacitor, and the inductor, that exhibit their unique properties primarily at the nanoscale. Theoretically, Memristors, a concatenation of “memory resistors”, are a type of passive circuit elements that maintain a relationship between the time integrals of current and voltage across a two terminal element. Thus, a memristors resistance varies according to a devices memristance function, allowing, via tiny read charges, access to a “history” of applied voltage. The material implementation of memristive effects can be determined in part by the presence of hysteresis (an accelerating rate of change as an object moves from one state to another) which, like many other non-linear “anomalies” in contemporary circuit theory, turns out to be less an anomaly than a fundamental property of passive circuitry.

Until recently, when HP Labs under Stanley Williams developed the first stable prototype, memristance as a property of a known material was nearly nonexistant. The memristance effect at non-nanoscale distances is dwarfed by other electronic and field effects, until scales and materials that are nanometers in size are utilized. At the nanoscale, such properties have even been observed in action prior to the HP Lab prototypes.

But beyond the physics of electrical engineering, they are a reconceptualizing of passive electronic circuit theory first proposed in 1971 by the nonlinear circuit theorist Leon Chua. What Leon Chua, a UC Berkeley Professor, contended in his 1971 paper Transactions on Circuit Theory, is that the fundamental relationship in passive circuitry was not between voltage and charge as assumed, but between changes-in-voltage, or flux, and charge. Chua has stated: “The situation is analogous to what is called “Aristotle’s Law of Motion, which was wrong, because he said that force must be proportional to velocity. That misled people for 2000 years until Newton came along and pointed out that Aristotle was using the wrong variables. Newton said that force is proportional to acceleration–the change in velocity. This is exactly the situation with electronic circuit theory today. All electronic textbooks have been teaching using the wrong variables–voltage and charge–explaining away inaccuracies as anomalies. What they should have been teaching is the relationship between changes in voltage, or flux, and charge.”

As memristors develop, its going to come down to, in part, who can come up with the best material implementation. Currently IBM, Hewlett Packard, HRL, Samsung and many other research labs seem to be hovering around the titanium dioxide memristor, but there are quite a few other types of memristorswith vectors of inquiry.

Reference

http://www.memristor.org/