Intro.php

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      Introduction
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      Hola amigos!<br />
      Zine welcomes you all to this wonderful world of Robotics.<br />
      Y’all must be fascinated with robots like WALL-E, Optimus Prime, BayMax, and many more. These sci-fi movie robots
      have not only entertained us but also helped us realize the upcoming future. You know what, we are slowly entering
      this world of fantasy. Engineers have already amazed us with their creations like ASIMO, PEPPER, NAO, MIRO, AIBO,
      ATLAS, MEENA, and trust us, it's just a start.
      <br />So, what is Robotics? <br />
      Robotics is the intersection of science, engineering, and technology that produces machines, called robots, that
      substitute for (or replicate) human actions. Simple isn't it. Earlier, it was meant to be used in the
      manufacturing sector only. Now, people are using robots at home, in hospitals, airports, and many more. So, let's
      begin our journey. But before that Beep Beep Boop Boop Beep...<br />
      <img src="./img/images/Intro/1.gif" class="img-responsive floating-image center">
      <br />Yeah, those above are robots!😃<br />
      <img src="./img/images/Intro/2.gif" class="img-responsive floating-image left">
      <img src="./img/images/Intro/3.gif" class="img-responsive floating-image right"
         style="width: 500px; height: 300px;"><br />
      And those too! 😅 The one on left is an obstacle-avoiding bot and the right one is a line follower bot.<br />
      <img src="./img/images/Intro/4.jpg" class="img-responsive floating-image right"
         style="width: 400px; height:600px;"><br />
      Now you all must be curious to know how we build them? How is a robot able to do things automatically? Does it go
      through the same thought process as a person would in the same situation? Does it even have a thought process of
      its own?🙄 You will learn all this over your journey on these blogs.
      Let's understand robots by taking an analogy with humans. Like humans have a brain, heart, and body, robots also
      have a brain (Integrated Circuits and Microcontrollers), heart ( Basic Electrical and Electronics), and body
      (Basic Mechanical Engineering).
      <br /><br />
      Let’s find out our first infinity stone. As we mentioned BEE is the heart of robotics, your robot may look good,
      complete from the outside, and might have a good structure but without the heart (BEE), the structure of your
      robot is no more than a corpse.
      <br /><br />
      You’ll understand the importance of BEE by resembling it with the heart of a human.<br />
      If BEE is the heart of a robot then simply wire can be compared with arteries and veins, and as we need the
      circulation of blood in different parts of the body to keep it functioning, similarly flow of electrons is
      necessary for working of different parts of the robot, e.g motors, sensors, and other electric and electronic
      elements all connected using wires.
      <br />
      <img src="./img/images/Intro/5.gif" class="img-responsive floating-image right"><br />
      Yes, yes, WiFi and Bluetooth don’t use wires at all but they aren’t exceptions guys, it’s just electronics doing
      telepathy. 😉 <br />
      <br />
      Let's start with basics but first, do you know the difference between electrical and electronics? Why do we need
      two separate fields in which both of them have to deal with electricity? Ever wondered why do we have electrical
      engineering and electronics engineering as separate branches in college? Think! Try a little harder! Still not
      getting it? No problemo.<br />
      <br />
      We’ll work this out with an activity. Consider a bulb and a television screen.
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      <img src="./img/images/Intro/6.gif" class="img-responsive floating-image left" style="width: 450px; height: 280px;">
      <img src="./img/images/Intro/7.gif" class="img-responsive floating-image" style="width: 300px; height:280px;">
      <br />
      Both bulbs and television do similar tasks of emitting light. But still, they are different. Right? You can’t
      address a bulb as television.
      <br /><br />
      Now try to think which one can be an electrical device and which one can be an electronic device. The answer is
      something very obvious...and we are sure you have figured it out. A bulb is an electrical device and a television
      is an electronic device but do you know why? Isn’t it something you know it is but you don’t know why? 😬
      <br />
      Let’s try to figure out the key difference between a bulb and a television. A bulb does emit light, but it just
      emits … light, no change in intensity, no change in colors, can’t even switch itself off if wanted and we are
      talking about a simple bulb connected to a power source, not those smart ones connected to smart devices. On the
      other hand, television doesn't just emit light. It controls the light, color, intensity, where to emit on screen,
      and when to emit, can shut itself off too. (if the television has a timer function). So, Is it getting less cloudy
      now?
      <br />
      From the above difference we obtained, we can conclude that both of them work with electricity but electric
      devices are just the devices that convert electrical energy to other forms of energy, meanwhile electronic devices
      hold control over the flow of electrons. Electronic devices can make their own decisions but an electric device
      lacks this feature.
      <br /><br />
      In a more formal language, The main difference between electrical and electronic circuits is that electrical
      circuits have no decision making (processing) capability, whilst electronic circuits do. An electric circuit
      simply powers machines with electricity. However, an electronic circuit can interpret a signal or an instruction,
      and perform a task to suit the circumstance.
      <br />
      But there are many similarities too. Like both branches deal with electric current mainly. They work hand in hand
      most of the time. There are many circuits where a small signal current is used to operate a much larger electrical
      equipment. Let’s see this with another example. Consider an Electric geyser. Here, the heating element is an
      electric device but it also has an auto-cutoff feature, yes, the temperature sensor and automatic switching action
      are part of the electronic circuit.
      <br />
      Can you think of a similar example to an electric geyser...yes electric iron often cuts-off power when it reaches
      a certain temperature.
      <br /><br />
      So, the basics of electrical devices and electronic devices seem clear now. But why do we need to study electrical
      and electronic devices? Because most robots do need a power source, electricity.
      So it is quite a must to have good knowledge about the heart and brain in your mind before making a Frankenstein.
      <br /><br />
      But before diving deep, do you know about the backbone of electrical and electronics, the fundamental principle on
      which most electrical and electronic devices work? Yes! We are talking about ohm’s law.
      <br /><br />
      <div class="blogPageHeading">Ohm’s Law</div>
      <img src="./img/images/Intro/8.jpg" class="img-responsive floating-image right" style="width: 300px; height:200px;">
      <br />
      Ohm’s Law provides a mathematical relationship between <strong>Voltage, Current,</strong> and
      <strong>Resistance</strong> in a circuit.
      <br />
      <img src="./img/images/Intro/9.png" class="img-responsive floating-image center" style="width: 150px; height:50px;">
      But we hope you know about another form of Ohm’s law too. It tells the relation between <strong>Current Density,
         Electric Field,</strong> and <strong>Conductivity</strong> of the material. We call that microscopic Ohm’s Law.
      <br /><br />
      <div class="blogPageHeading">Microscopic Ohm’s Law-</div>

      <img src="./img/images/Intro/10.jpg" class="img-responsive floating-image center"
         style="width: 160px; height:70px;"><br />
      But do you know that Ohm’s Law is not always valid? 🤔 Yes, there are non-Ohmic devices too, and they are pretty
      important in robotics too. How? You’ll find about them during your journey into robotics.
      <img src="./img/images/Intro/11.png" class="img-responsive floating-image right" style=" height:200px;">
      <br /><br />
      Now that you know about the importance of electrical and electronics, it's time to find more about “The Power
      Stone of Robotics” and get it in our hands. So let’s go.
      <br /><br />


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