Binary Number Quotes

Oh, you are a non-binary bisexual chemist? Well this completely changes the atomic numbers of Carbon, Palladium, and Uranium.

Overwhelmed by life's complexity? Realize that our alphabet consists of only 26 letters, calculations are based on a set of 10 numbers, all variations in music are based on 7 musical notes, our DNA can be dissected into 4 letters and space on the Planck scale is probably made solely out of binary code

At what point will I be able to write an e-mail to my grandson in Bahrain merely by thinking it?" "Thinking it?" Alif smiled contemptuously. "I expect never. Quantum computing will be the next thing, but I don't think it will be capable of transcribing thought." "Quantum? Oh dear, I've never heard of that." It will use qubits instead of-well, that's kind of complicated. Regular computers use a binary language to figure things out and talk to each other-ones and zeroes. Quantum computers could use ones and zeroes in an unlimited number of states, so in theory, they could store massive amounts of data and perform tasks that regular computers can't perform." "States?" "Positions in space and time. Ways of being." "Now it is you who are metaphysical. Let me rephrase what I think you have said in language from my own field of study: they say that each word in the Quran has seven thousand layers of meaning, each of which, though some might seem contrary or simply unfathomable to us, exist equally at all times without cosmological contradiction. Is this similar to what you mean?" "Yes," he said. "That is exactly what I mean. I've never heard anybody make that comparison.

Euler’s Formula encapsulates the whole of existence. It contains 0, the number of the monad (ontological zero); the number e that determines exponentiation; the number i that determines the imaginary domain (time); the number 1 that determines the domain of counting numbers (and with 0 creates the binary system of computing), and real numbers (space); -1, the number of the negative domain (antimatter); and the number π that determines the world of the circle and geometry. Euler’s Formula is the unquestionable God Equation.

Ben developed a similarly Byzantine system for memorizing binary digits, which enables him to convert any ten-digit-long string of ones and zeros into a unique image. That’s 210, or 1,024, images set aside for binaries. When he sees 1101001001, he immediately sees it as a single chunk, an image of a card game. When he sees 0111011010, he instantaneously conjures up an image of a cinema. In international memory competitions, mental athletes are given sheets of 1,200 binary digits, thirty to a row, forty rows to a page. Ben turns each row of thirty digits into a single image. The number 110110100000111011010001011010, for example, is a muscleman putting a fish in a tin. At the time, Ben held the world record for having learned 3,705 random ones and zeroes in half an hour.

The measuring rod, the unit of information, is something called a bit (for binary digit). It is an answer - either yes or no- to an unambiguous question... The information content of the human brain expressed in bits is probably comparable to the total number of connections among the neurons- about a hundred trillion, 10^14 bits. If written out in English, say, that information would fill some twenty million volumes, as many as in the world's largest libraries. The equivalent of twenty million books is inside the heads of every one of us... When our genes could not store all the information necessary for survival, we slowly invented them. But then the time came, perhaps ten thousand years ago, when we needed to stockpile enormous quantities of information outside our bodies. We are the only species on the planet, so far as we know, to have invented a communal memory stored neither in our genes nor in our brains. The warehouse of that memory is called the library... The great libraries of the world contain millions of volumes, the equivalent of about 10^14 bits of information in words, and perhaps 10^15 bits in pictures. This is ten thousand times more than in our brains. If I finish a book a week, I will only read a few thousand books in my lifetime, about a tenth of a percent of the contents of the greatest libraries of our time. The trick is to know which books to read... Books permit us to voyage through time, to tap the wisdom of our ancestors. The library connects us with the insights and knowledge, painfully extracted from Nature, of the greatest minds that ever were, with the best teachers, drawn from the entire planet and from all of our history, to instruct us without tiring, and to inspire us to make our own contribution to the collective knowledge of the human species. Public libraries depend on voluntary contributions. I think the health of our civilization, the depth of our awareness about the underpinnings of our culture and our concern for the future can all be tested by how well we support our libraries. p224-233

About those gender binaries that still govern the world most of us live in: it’s important that in fanfiction, women are largely running the show. Where else is that true? Today, less than 30 percent of television writers are women;2 in film, that figure is below 20 percent.3 Oscar-nominated women directors? Four. In 2012, women comprised roughly 30 percent of the writers reviewed by the combined forces of the New York Times Book Review, the Times Literary Supplement, the New Yorker, the Atlantic Monthly, and the Paris Review.4 Women dominate in romance writing (sometimes, even in the romances themselves)—only to have their accomplishments derided or ignored by the broader literary culture whose efforts their profits nonetheless help underwrite. In sum, those numbers mean there’s a lot of variously talented women we haven’t been hearing from. A great many of these women are writing fic.

Several of the new proposals have at their core the concept that the world is made of information. This can be summarized in John Wheeler’s slogan “it from bit,” modernized as “it from qubit,” where a qubit is a minimal unit of quantum information, i.e., a quantum binary choice, as in our story about pet preference. In practical terms, this program imagines that all physical quantities are reducible to a finite number of quantum yes/no questions, and also that evolution in time under Rule 1 can be understood as processing this quantum information as a quantum computer would.

Computational models of the mind would make sense if what a computer actually does could be characterized as an elementary version of what the mind does, or at least as something remotely like thinking. In fact, though, there is not even a useful analogy to be drawn here. A computer does not even really compute. We compute, using it as a tool. We can set a program in motion to calculate the square root of pi, but the stream of digits that will appear on the screen will have mathematical content only because of our intentions, and because we—not the computer—are running algorithms. The computer, in itself, as an object or a series of physical events, does not contain or produce any symbols at all; its operations are not determined by any semantic content but only by binary sequences that mean nothing in themselves. The visible figures that appear on the computer’s screen are only the electronic traces of sets of binary correlates, and they serve as symbols only when we represent them as such, and assign them intelligible significances. The computer could just as well be programmed so that it would respond to the request for the square root of pi with the result “Rupert Bear”; nor would it be wrong to do so, because an ensemble of merely material components and purely physical events can be neither wrong nor right about anything—in fact, it cannot be about anything at all. Software no more “thinks” than a minute hand knows the time or the printed word “pelican” knows what a pelican is. We might just as well liken the mind to an abacus, a typewriter, or a library. No computer has ever used language, or responded to a question, or assigned a meaning to anything. No computer has ever so much as added two numbers together, let alone entertained a thought, and none ever will. The only intelligence or consciousness or even illusion of consciousness in the whole computational process is situated, quite incommutably, in us; everything seemingly analogous to our minds in our machines is reducible, when analyzed correctly, only back to our own minds once again, and we end where we began, immersed in the same mystery as ever. We believe otherwise only when, like Narcissus bent above the waters, we look down at our creations and, captivated by what we see reflected in them, imagine that another gaze has met our own.

Base two especially impressed the seventeenth-century religious philosopher and mathematician Gottfried Wilhelm Leibniz. He observed that in this base all numbers were written in terms of the symbols 0 and 1 only. Thus eleven, which equals 1 · 23 + 0 · 22 + 1 · 2 + 1, would be written 1011 in base two. Leibniz saw in this binary arithmetic the image and proof of creation. Unity was God and zero was the void. God drew all objects from the void just as the unity applied to the zero creates all numbers. This conception, over which the reader would do well not to ponder too long, delighted Leibniz so much that he sent it to Grimaldi, the Jesuit president of the Chinese tribunal for mathematics, to be used as an argument for the conversion of the Chinese emperor to Christianity.

More recently, mathematical script has given rise to an even more revolutionary writing system, a computerised binary script consisting of only two signs: 0 and 1. The words I am now typing on my keyboard are written within my computer by different combinations of 0 and 1. Writing was born as the maidservant of human consciousness, but is increasingly becoming its master. Our computers have trouble understanding how Homo sapiens talks, feels and dreams. So we are teaching Homo sapiens to talk, feel and dream in the language of numbers, which can be understood by computers. And this is not the end of the story. The field of artificial intelligence is seeking to create a new kind of intelligence based solely on the binary script of computers. Science-fiction movies such as The Matrix and The Terminator tell of a day when the binary script throws off the yoke of humanity. When humans try to regain control of the rebellious script, it responds by attempting to wipe out the human race.

We’re overconfident. “People think they know more than they do about how the future will unfold.” Our frame is too narrow. “This is the tendency to define our choices too narrowly, to see them in binary terms. We ask, ‘Should I break up with my partner or not?’ instead of ‘What are the ways I could make this relationship better?’” We rely on short-term emotion. “When we’ve got a difficult decision to make, our feelings churn. We replay the same arguments in our head. We agonize about our circumstances. We change our minds from day to day. If our decision was represented on a spreadsheet, none of the numbers would be changing—there’s no new information being added—but it doesn’t feel that way in our heads.” We have confirmation bias. “When people have the opportunity to collect information from the world, they are more likely to select information that supports their preexisting attitudes, beliefs, and actions.” We pretend we want the truth, yet all we really want is reassurance. So what are your barriers to making good decisions?

review, these villains are: We’re overconfident. “People think they know more than they do about how the future will unfold.” Our frame is too narrow. “This is the tendency to define our choices too narrowly, to see them in binary terms. We ask, ‘Should I break up with my partner or not?’ instead of ‘What are the ways I could make this relationship better?’” We rely on short-term emotion. “When we’ve got a difficult decision to make, our feelings churn. We replay the same arguments in our head. We agonize about our circumstances. We change our minds from day to day. If our decision was represented on a spreadsheet, none of the numbers would be changing—there’s no new information being added—but it doesn’t feel that way in our heads.” We have confirmation bias. “When people have the opportunity to collect information from the world, they are more likely to select information that supports their preexisting attitudes, beliefs, and actions.” We pretend we want the truth, yet all we really want is reassurance.

Selection on one of two genetically correlated characters will lead to a change in the unselected character, a phenomenon called 'correlated selection response.' This means that selection on one character may lead to a loss of adaptation at a genetically correlated character. If these two characters often experience directional selection independently of each other, then a decrease in correlation will be beneficial. This seems to be a reasonably intuitive idea, although it turned out to be surprisingly difficult to model this process. One of the first successful attempts to simulate the evolution of variational modularity was the study by Kashtan and Alon (2005) in which they used logical circuits as model of the genotype. A logical circuit consists of elements that take two or more inputs and transform them into one output according to some rule. The inputs and outputs are binary, either 0 or 1 as in a digital computer, and the rule can be a logical (Boolean) function. A genome then consists of a number of these logical elements and the connections among them. Mutations change the connections among the elements and selection among mutant genotypes proceeds according to a given goal. The goal for the network is to produce a certain output for each possible input configuration. For example, their circuit had four inputs: x,y,z, and w. The network was selected to calculate the following logical function: G1 = ((x XOR y) AND (z XOR w)). When the authors selected for this goal, the network evolved many different possible solutions (i.e. networks that could calculate the function G1). In this experiment, the evolved networks were almost always non-modular. In another experiment, the authors periodically changed the goal function from G1 to G2 = ((x XOR y) or (z XOR w)). In this case, the networks always evolved modularity, in the sense that there were sub-circuits dedicated to calculating the functions shared between G1 and G2, (x XOR y) and (z XOR w), and another part that represented the variable part if the function: either the AND or the OR function connecting (x XOR y) and (z XOR w). Hence, if the fitness function was modular, that is, if there were aspects that remained the same and others that changed, then the system evolved different parts that represented the constant and the variable parts of the environment. This example was intriguing because it overcame some of the difficulties of earlier attempts to simulate the evolution of variational modularity, although it did use a fairly non-standard model of a genotype-phenotype map: logical circuits. In a second example, Kashtan and Alon (2005) used a neural network model with similar results. Hence, the questions arise, how generic are these results? And can one expect that similar processes occur in real life?

So, you start to ponder. What actually is information, and what does it do? Your response is simple and direct. Information answers questions. Years of research by mathematicians, physicists, and computer scientists have made this precise. Their investigations have established that the most useful measure of information content is the number of distinct yes-no questions the information can answer. The coins' information answers 1,000 such questions: Is the first dollar heads? Yes. Is the second dollar heads? Yes. Is the third dollar heads? No. Is the fourth dollar heads? No. And so on. A datum that can answer a single yes-no question is called a bit-a familiar computer-age term that is short for binary digit, meaning a 0 or a 1, which you can think of as a numerical representation of yes or no. The heads-tails arrangement of the 1,000 coins thus contains 1,000 bits' worth of information. Equivalently, if you take Oscar's macroscopic perspective and focus only on the coins' overall haphazard appearance while eschewing the "microscopic" details of the heads-tails arrangement, the coins' "hidden" information is 1,000 bits.

Contrary to the impression that the educational system promulgates, there are no absolute answers to questions; the correct answer to a question depends on the context in which it arises. For example, how much is 2 + 3? The answer depends on “two and three of what?” If we are speaking of 2 degrees Fahrenheit plus 3 degrees Celsius, the answer is different than if we are referring to the number of books on a table. How many students learn that 10 + 10 = 100 in a binary number system? Schools

Writing was born as the maidservant of human consciousness, but it is increasingly becoming its master. Our computers have trouble understanding how Homo sapiens talks, feels and dreams. So we are teaching Homo sapiens to talk, feel and dream in the language of numbers, which can be understood by computers. And this is not the end of the story. The field of artificial intelligence is seeking to create a new kind of intelligence based solely on the binary script of computers. Science-fiction movies such as The Matrix and The Terminator tell of a day when the binary script throws off the yoke of humanity. When humans try to regain control of the rebellious script, it responds by attempting to wipe out the human race.

What kinds of Work will You do in Freelancing? What kind of work will you do in Freelancing? And to understand the type of work in freelancing, You need to have a clear idea of what freelancing is. There is no specific type of freelancing, it can be of many types, such as - Freelance Photography, Freelance Journalism, Freelance Writer, Freelance Data Entry, Freelance Logo Designer, Freelance Graphics Designer etc. There's no end to the amount of work you can do with freelancing. The most interesting thing is that you are everything in this process. There is no one to twirl over your head, you are the boss here. Even here there is no obligation to work from 9-5. Today I discuss some freelancing tasks that are popular in the freelancing sector or are done by many freelancers. For example: Data Entry: It wouldn't be too much of a mistake to say that data entry is the easiest job. Rather, it can be said without a doubt that data entry is more difficult than any other job. Data entry work basically means typing. This work is usually provided as a PDF file and is described as a 'Word type work'. Any employee can take a data entry job as a part-time job for extra income at the end of his work. Graphics Design: One of the most popular jobs in the freelancing world is graphic design. The main reasons for the popularity of this work are its attractiveness and simplicity. Everything we see online is contributed by graphics. For example, Cover pages, Newspaper, Book cover pages, advertisements and Photographs, Editing or changing the background of a picture or photo, Creating banners for advertising, Creating visiting cards, Business cards or leaflets, Designed for webpages known as (PhD), T-shirt designing, Logo designing, Making cartoons and many more. Web Design and Development: 'Web design' or 'Site design' are used interchangeably. The most important job of freelancing is web design. From the simplest to the most difficult aspects of this work, almost all types of work are done by freelancers. There are many other themes like WordPress, Elementor, Joomla, and DV that can be used to create entire sites. Sometimes coding is required to create some sites. If the web designer has coding experience or skills then there is no problem, and if not then the site creation should be done by programmers. Programming: Programming means writing some signals, codes, or symbols into a specific system. And its job is to give different types of commands or orders to the computer. If you give some command to the computer in Bengali or English, the computer will not understand it. For that want binary code or number. Just as any book is written in English, Hindi, Japanese Bengali, etc. every program is written in some particular programming language like C++, Java, etc. The written form of the program is called source code. A person who writes source code is called a programmer, coder, or developer. While writing the program, the programmer has to follow the syntax or grammar of that particular programming language. Other work: Apart from the above jobs, there are various other types of jobs that are in high demand in the freelancing sector or market. The tasks are: Writing, Article or blog post writing SEO Marketing, Digital marketing, Photo, Audio, Video Editing, Admin jobs, Software development, Translation, Affiliate marketing, IT and Networking etc. Please Visit Our Blogging Website to read more Articles related to Freelancing and Outsourcing, Thank You.

From conversations I’ve had with a number of transsexual friends who transitioned before me, I would say that my attitude at the time—my questioning of (and refusal to identify within) the male/female binary—was a fairly common response to being in the throes of physical and social transition. Transitioning is such an upending, mind-blowing experience that it seems to me to be almost a necessity for one to let go of one’s preconceived notions of maleness and femaleness in order to traverse those states of being. Being perceived as female while having an entirely male history and a mostly male body (as I did at the time) made me feel not like an imposter (as some might imagine), but more like an alien. I was just being myself, but other people were relating and reacting to me in ways that were foreign to me. I felt less like a woman or a man than I did a stranger in a strange land.

Today’s computers use transistors. When used in computers, transistors basically function the same way relays do, but (as we’ll see) they’re much faster and much smaller and much quieter and use much less power and are much cheaper. Building an 8-Bit Adder still requires 144 transistors (more if you replace the ripple carry with a look-ahead carry), but the circuit is microscopic. Chapter 13. But What About Subtraction? After you’ve convinced yourself that relays can indeed be wired together to add binary numbers, you might ask, “But what about subtraction?” Rest assured that you’re not making a nuisance of yourself by asking questions like this; you’re actually being quite perceptive. Addition and subtraction complement each other in some ways, but the mechanics of the two operations are different. An addition marches consistently from the rightmost column of digits to the leftmost column. Each carry from one column is added to the next column. We don’t carry in subtraction, however; we borrow, and that involves an intrinsically different mechanism—a messy back-and-forth kind of thing. For example, let’s look at a typical borrow-laden subtraction

information in terms of the number of binary digits rather than in terms of the number of different messages that the binary digits can form. This would mean that amount of information should be measured, not by the number of possible messages, but by the logarithm of this number.

Digital computers have either two states, on or off, and so respond only to binary messages, which consist of ones (on) and zeros (off). Every term in a program ultimately must be expressed through these two numbers, ensuring that ordinary mathematical statements quickly grow dizzyingly complex. In the late 1940s, programming a computer was, as one observer put it, “maddeningly difficult.” Before long programmers found ways to produce binary strings more easily. They first devised special typewriters that automatically spit out the desired binary code. Then they shifted to more expansive “assembly” languages, in which letters and symbols stood for ones and zeros. Writing in assembly was an advance, but it still required fidelity to a computer’s rigid instruction set. The programmer had to know the instruction set cold in order to write assembly code effectively. Moreover, the instruction set differed from computer model to computer model, depending on its microprocessor design. This meant that a programmer’s knowledge of an assembly language, so painfully acquired, could be rendered worthless whenever a certain computer fell out of use. By

alt.sex.stories The newsgroup quickly became one of the most popular text-based newsgroups (i.e. not intended for posting binary files) on Usenet. Amateur writers of all sorts began posting fictional “erotic stories” and finding a worldwide audience for their work. However, because of the very nature of unmoderated newsgroups, alt.sex.stories soon found itself a repository for a great number of poorly-written, sometimes barely coherent “stroke” stories consisting of a few sentences or paragraphs. The average quality of the stories posted to the newsgroup seemed somewhat lower and more crude than the stories seen in pornographic magazines and books, and this state of affairs continues to the current day.[citation needed] Yes, the “stroke” stories certainly undermined the credibility of the newsgroup that had produced stories such as “Balling Lil’ Sis,” “Showtime - Part 6 Featuring Jennifer Love Hewitt and a Vanna White Lookalike,” and “Alex and Brian,” which features the immortal sentence “‘Shhhhhhh, if you do as i say you wont get this!’ he said as he pulled out a 12 inch dildo with the name ‘MegaMan’ on it.

In other words, the subjective perception of a copy of you in a typical parallel universe is a seemingly random sequence of wins and losses, behaving as if generated through a random process with probabilities of 50% for each outcome. This experiment can be made more rigorous if you take notes on a piece of pater, writing "1" every time you win and "0" every time you lose, and place a decimal point in front of it all. For example, if you lose, lose, win, lose, win,win,win, lose,lose and win, you'd write ".0010111001." But this is just what real numbers between zero and one look like when written out in binary, the way computers usually write them on the hard drive! If you imagine repeating the Quantum Cards experiment infinitely many times, your piece of paper would have infinitely many digits written on it, so you can match each parallel universe with a number between zero and one. Now what Borel's theorem proves is that almost all of these numbers have 50% of their decimals equal to 0 and 50% equal to 1, so this means that almost all of the parallel universes have you winning 50% of the time and losing 50% of the time. It's not just that the percentages come out right. The number ".010101010101..." has 50% of its digits equal to 0 but clearly isn't random, since it has a simple pattern. Borel's theorem can be generalized to show that almost all numbers have random-looking digits with no patterns whatsoever. This means that in almost all Level III parallel universes, your sequence of wins and losses will also be totally random, without any pattern, so that all that can be predicted is that you'll win 50% of the time.

The number of seconds in half-a-day oscillates with a frequency of one million Hertz by a repeating scheme which equals to the natural logarithm constant (i.e., e) raised to the literal power of PI itself; the latter is nothing but a projection from a daily numerical phenomenon exhibiting its influence throughout the whole solar year using a binary temporal balance in two halves of a single day (i.e., a half equals to 43200 seconds) and of a single year (i.e., Equinoxes on March and September). That exact mathematical pattern was encoded into the structure of the Great Pyramid of Giza and was demonstrated through its height while being silent about its lunar foundation which is found in its base rather than its apex.

My nephew Marty has a T-shirt that says on the front: “There are 10 types of people in the world…” If you read these words and are trying to think of what the ten types are, you’ve already typed yourself. The back of the shirt reads: “Those that understand binary, and those that don’t.

At first, one might think that something like thermodynamics is a rather restrictive concept because it concerns itself with temperature and heat. But its application is not just restricted to all things thermal. It is possible to relate the notion of entropy, which is a measure of disorder, to the more general and fruitful notions of 'information', of which we have already made use in discussing the richness of certain systems of axioms and rules of reasoning. We can think of the entropy of a large object like a black hole as being equal to the number of different ways in which its most elementary constituents can be rearranged in order to give the same large-scale state. This tells us the number of binary digits ('bits') that are needed to specify in every detail the internal configuration of the constituents out of which the black hole is composed. Moreover, we can also appreciate that, when a black hole horizon forms, a certain amount of information is forever lost to the outside observer when a horizon forms around a region of the universe to create a black hole.

The most primitive tribes of Australia and Africa, like the Eskimos of today, have not yet reached finger-counting, nor do they have numbers in series. Instead they have a binary system of independent numbers for one and two, with composite numbers up to six. After six, they perceive only “heap.” Lacking the sense of series, they will scarcely notice when two pins have been removed from a row of seven. They become aware at once, however, if one pin is missing. Tobias Dantzig, who investigated these matters, points out (in Number: The Language of Science) that the parity or kinesthetic sense of these people is stronger than their number sense. It is certainly an indication of a developing visual stress in a culture when number appears. A closely integrated tribal culture will not easily yield to the separatist visual and individualistic pressures that lead to the division of labor, and then to such accelerated forms as writing and money. On the other hand, Western man, were he determined to cling to the fragmented and individualist ways that he has derived from the printed word in particular, would be well advised to scrap all his electric technology since the telegraph.

In 1983, Pioneer 10 became the first artificial object from Earth to pass Pluto and leave our solar system. It was last heard from on January 22, 2003, when the sensors of the Deep Space Network picked up the final faint signal as the tiny craft hurtled deep into interstellar space. Although its power source has weakened over the last 35 years, scientists believe that Pioneer 10 is still intact and on course, heading toward the star Aldebaran, where it should arrive in about two million years. When it does, it will be carrying a calling card from Earth in the universal language of binary numbers.

The binary numbers in a WAV file are always little endian, which means that the least significant byte comes first,

The entropy of a signal is defined to be the logarithm to base two of the number of different possibilities for the signal. The less random the signal, the fewer possibilities are allowed for the data in the signal, and hence the smaller the entropy. The entropy measures the smallest number of binary bits the signal could be compressed into.

There are 10 kinds of people in the world: those who understand binary numbers, and those who don’t.

Leibniz predicted modern computers after the isomorphism between his binary numbers and I Ching became clear to him; it was obvious to his fine mathematical mind that such a symbolism could be mechanically reproduced and we would then have something akin to a "thinking machine." It is amusing that those who think computers think (or will soon think) generally consider themselves materialists, while those who claim I Ching thinks call themselves mystics, but if thought is defined in these terms, then both computers and I Ching must be considered to be thinking. (The fact that the human nervous system operates on a similar binary code may account for our occasional impression that humans also think, at least outside the areas of politics and religion.)

Nebulae are clouds of stardust floating in space. Star clusters are just as they sound. Stars appear so close together in the sky, they’re sometimes mistaken for one object. My favorite smudge, however, isn’t a nebula or cluster. It’s Messier’s number 40. A double star. Perhaps even a binary star.” “Oh, truly.” And with that, he was back to the earlobe. She bent to peer through the eyepiece. “A binary star is created when two stars are drawn together. Once they come near enough, neither one can resist the other’s pull. They’re stuck together forever, destined to spend eternity revolving about each other, like . . . like dancers in a waltz, I suppose.” She scribbled a note in her notebook. “The fascinating thing is, a binary star’s center of gravity isn’t in one star or the other. It’s in the empty space between them.

What kinds of Work will You do in Freelancing? What kind of work will you do in Freelancing? And to understand the type of work in freelancing, You need to have a clear idea of what freelancing is. There is no specific type of freelancing, it can be of many types, such as - Freelance Photography, Freelance Journalism, Freelance Writer, Freelance Data Entry, Freelance Logo Designer, Freelance Graphics Designer etc. There's no end to the amount of work you can do with freelancing. The most interesting thing is that you are everything in this process. There is no one to twirl over your head, you are the boss here. Even here there is no obligation to work from 9-5. Today I discuss some freelancing tasks that are popular in the freelancing sector or are done by many freelancers. For example: Data Entry: It wouldn't be too much of a mistake to say that data entry is the easiest job. Rather, it can be said without a doubt that data entry is more difficult than any other job. Data entry work basically means typing. This work is usually provided as a PDF file and is described as a 'Word type work'. Any employee can take a data entry job as a part-time job for extra income at the end of his work. Graphics Design: One of the most popular jobs in the freelancing world is graphic design. The main reasons for the popularity of this work are its attractiveness and simplicity. Everything we see online is contributed by graphics. For example, Cover pages, Newspaper, Book cover pages, advertisements and Photographs, Editing or changing the background of a picture or photo, Creating banners for advertising, Creating visiting cards, Business cards or leaflets, Designed for webpages known as (PhD), T-shirt designing, Logo designing, Making cartoons and many more. Web Design and Development: 'Web design' or 'Site design' are used interchangeably. The most important job of freelancing is web design. From the simplest to the most difficult aspects of this work, almost all types of work are done by freelancers. There are many other themes like WordPress, Elementor, Joomla, and DV that can be used to create entire sites. Sometimes coding is required to create some sites. If the web designer has coding experience or skills then there is no problem, and if not then the site creation should be done by programmers. Programming: Programming means writing some signals, codes, or symbols into a specific system. And its job is to give different types of commands or orders to the computer. If you give some command to the computer in Bengali or English, the computer will not understand it. For that want binary code or number. Just as any book is written in English, Hindi, Japanese Bengali, etc. every program is written in some particular programming language like C++, Java, etc. The written form of the program is called source code. A person who writes source code is called a programmer, coder, or developer. While writing the program, the programmer has to follow the syntax or grammar of that particular programming language. Other work: Apart from the above jobs, there are various other types of jobs that are in high demand in the freelancing sector or market. The tasks are: Writing, Article or blog post writing SEO Marketing, Digital marketing, Photo, Audio, Video Editing, Admin jobs, Software development, Translation, Affiliate marketing, IT and Networking etc.

The robotic brain is the most advanced piece of technology in the history of the world. Yet everything we say/do/think is built on just two numbers. Zero. And one.

It is equally hard to know what to make of Fausto-Sterling’s (1992, p. 199) claim that “there is no single undisputed claim about universal human behavior (sexual or otherwise).” Presumably even the most ardent cultural relativist would accept that everywhere; people live in societies; they eat, sleep, and make love; and that women give birth and men do not. The arguments seem to arise when we move from basic universals to their specific behavioral expression. Though everywhere women are the principal caretakers of children, the fact that there may be variation in how that task is fulfilled leads some anthropologists to conclude that mothering is not universal. This is analogous to arguing that because people eat different food in different parts of the world, eating is not universal. Evolutionary psychologists do not argue for cultural invariance in the expression of evolved adaptations. As Tooby and Cosmides (1992, p. 45) put it, “manifest expressions may differ between individuals when different environmental inputs are operated on by the same procedures to produce different manifest outputs.” At a behavioral level, the expression of the mechanism may vary but that does not question the universality of the generative mechanism itself. Fortunately Donald Brown (1991), trained in the standard ethnographic tradition, has documented the extent of human universals. The list is astoundingly long but here is a taste of the hundreds that he finds: gossip, lying, verbal humor, storytelling, metaphor, distinction between mother and father, kinship categories, logical relations, interpreting intention from behavior and recognition of six basic emotions. Of special interest to the study of gender we find: binary distinctions between men and women, division of labor by sex, more child care by women, more aggression and violence by men, acknowledgement of differences between male and female natures, and domination by men in the public political sphere. Now this last observation (that men predominate in positions of power) provides a nice example of the extreme reluctance of cultural anthropologists to acknowledge universals. In 1973, Steven Goldberg wrote a book documenting the universality of patriarchy. He was inundated with letters informing him that he was wrong and pointing out counter-examples. (Other feminists were more willing to accept his premise, see Bem, 1993; Millett, 1969; Rich, 1976.) Over the next 20 years, he carefully examined the available ethnographic documentation for each putative counter-example and in 1993 authored a second book in which he was emphatic that no society had yet been found that violated his rule. There are societies that are matrilineal and matrilocal and where women are accorded veneration and respect—but there are no societies which violate the universality of patriarchy defined as “a system of organisation … in which the overwhelming number of upper positions in hierarchies are occupied by males” (Goldberg, 1993, p. 14). Such a state of affairs is deplorable but mere denial of the facts will do nothing to alter it—women’s engagement in the political arena will.

Sum Fibonacci Style Sequences Create A 3x3 Magic Square Create A 4x4 Magic Square From Your Birthday Convert A Decimal Number To Binary The Egyptian Method / Russian Peasant Multiplication Extract Cube Roots Extract Fifth Roots Extract Odd-Powered Roots Conclusion More From Presh Talwalkar Why Learn Mental Math Tricks? Mental math has a mixed reputation. Some consider it useless because calculators and computers can solve problems faster, with assured accuracy. Additionally, mental math is not even necessary to get good grades in math or to pursue a professional math career. So what's the point of learning mental math and math tricks anyway? There are many reasons why mental math is still useful. For one, math skills are needed for regular tasks like calculating the tip in a restaurant or comparison shopping to find the best deal. Second, mental math tricks are one of the few times people enjoy talking about math. Third, mental math methods can help students build confidence with math and numbers. Mental math tricks are fun to share. Imagine your friend asks you to multiply 93 and 97, and before

Symeon the Sanctified was allowed on to Mount Athos – a eunuch who would then go on to found a monastery of eunuchs in Thessalonika. A sizeable number of patriarchs – the leaders of the Orthodox Church based in Constantinople – were eunuchs. The presence of this third sex – complicating the binary division of male and female – also, arguably, allowed women to enjoy an atypical degree of power in the city, a tradition that endured for 1,500 years, beyond the Ottoman conquest of the city in AD 1453.