Tech Bites

NIC Number Calculator National Identity Card (NIC) Number Calculator National Identity Card number is unique for each Sri Lankan. At a glance, it is just a sequence of numbers, but it contains some hidden details such as the person's gender and date of birth. You can calculate those from the below form. Enter your NIC no and click on the "GO" button. Note: There are two sections for the Old format NIC and New format NIC. Old NIC No Old NIC No: GO Gender: Birthday: New NIC No New NIC No: GO Gender: Birthday: Cheers..!!

  SLIATE பற்றி அறிந்து கொள்வோம் ... #Junior University உயர் கல்வி அமைச்சினால் நிர்வகிக்கப்படும் உயர் கல்வி நிறுவனம். உண்மையில், நாங்கள் இதை ஜூனியர் பல்கலைக்கழகம் என்று அழைத்தால், அது சரி, ஏனென்றால் இது அனைத்து பல்கலைக்கழகங்களையும் கட்டுப்படுத்தும் உயர் கல்வி மற்றும் நெடுஞ்சாலை அமைச்சகத்தின் கீழ் உள்ளது. க.பொ.த. உயர் மட்டத்தில் நாம் அனைவரும் ஒரு நல்ல z - score பெற்ற பிறகு, அடுத்த நம்பிக்கை ஒரு வளாக புத்தகத்தை நிரப்பி ஒரு வளாகத்திற்குச் செல்வதுதான். (வளாகம் = university ) க.பொ.த A/L தேர்வில் தேர்ச்சி பெற்று குறிப்பிடத்தக்க z - score பெற்ற பின்னரும் கூட, நமது பல்கலைக்கழக கனவுகளை சிதைக்க முடியும். அல்லது A/L வகுப்புகள் தொடங்கியதிலிருந்து நீங்கள் எடுக்க விரும்பிய படிப்புக்கு பதிலாக வேறு படிப்புக்கு நீங்கள் தேர்ந்தெடுக்கப்பட்டிருக்கலாம். பணத்துடன் கூடிய நண்பர்கள் வெவ்வேறு டிப்ளோமாக்களை எடுக்க உங்கள் தந்தையுடன் பதிவு செய்யும்போது, ​​ஏழை அம்மாவும் தந்தையும் உங்களைப் போலவே உணருவார்கள், நான் தேர்வில் தேர்ச்சி பெற்றேன், ஆனால் உயர் கல்வியைத் தொடர வாய்ப்பு கிடைக்கவில்லை. Cutoff marks வந்த பிறகு...

  Nanotechnology refers to the field of science and technology that deals with the design, production, manipulation, and use of materials and devices at the nanoscale level. The prefix "nano" refers to one billionth of a meter, or about the size of atoms and molecules. Nanotechnology has the potential to revolutionize many fields, including medicine, energy production, electronics, and materials science. It offers the ability to create new materials and devices with unique properties and capabilities, such as enhanced strength, improved conductivity, and greater sensitivity. Some examples of nanotechnology applications include: Drug delivery systems that can target specific cells or tissues in the body Solar cells that can capture more sunlight and convert it into electricity more efficiently Lightweight and strong materials for use in aerospace, automotive, and other industries Sensors that can detect and measure extremely small quantities of substances or physical phenomena...

  Biotechnology is the use of biological processes, organisms, or systems to develop or manufacture products for a variety of applications. It involves applying scientific and engineering principles to living organisms or their parts to develop new technologies, products, and services. Biotechnology covers a broad range of fields, including medical biotechnology, industrial biotechnology, agricultural biotechnology, and environmental biotechnology. Medical biotechnology involves the use of biotechnology in medicine and healthcare, such as the development of new drugs and therapies, diagnostic tests, and medical devices. Industrial biotechnology involves the use of biotechnology in manufacturing and other industrial processes, such as the production of biofuels, bioplastics, and enzymes. Agricultural biotechnology involves the use of biotechnology in agriculture, such as genetically modified crops and animal breeding. Environmental biotechnology involves the use of biotechnology in ...

  Autonomous robots are robots that can perform tasks without human intervention. These robots use artificial intelligence, machine learning, and other technologies to sense their environment and make decisions based on that information. They can navigate and move around on their own, interact with objects and other robots, and perform various tasks such as cleaning, delivery, manufacturing, and more. Autonomous robots can be equipped with various sensors, such as cameras, lidar, sonar, and infrared, to perceive their environment. They also have onboard computers and algorithms that allow them to analyze and interpret this sensory data, make decisions, and perform actions based on their programming. Autonomous robots are being used in various industries, such as manufacturing, logistics, healthcare, agriculture, and defense. They are helping to automate processes, improve efficiency, reduce costs, and increase safety in various tasks. However, the development of autonomous robots a...

  3D printing is a manufacturing process that creates three-dimensional objects by adding layers of material on top of each other based on a digital 3D model. The process begins with the creation of a 3D model using computer-aided design (CAD) software or 3D scanning technologies. The 3D model is then sliced into many thin layers, and the 3D printer uses this information to create the physical object by depositing material layer by layer. There are various materials that can be used for 3D printing, including plastics, metals, ceramics, and even biological materials such as cells and tissues. The most common type of 3D printing is called fused deposition modeling (FDM), which uses a filament of plastic that is heated and extruded through a nozzle to create the object. Other types of 3D printing include stereolithography (SLA), digital light processing (DLP), selective laser sintering (SLS), and electron beam melting (EBM). 3D printing has numerous applications in various industries...

  Augmented Reality (AR) and Virtual Reality (VR) are two technologies that are often used in the field of computer science and entertainment. Augmented Reality (AR) is a technology that enhances real-world environments with computer-generated information. AR systems use cameras, sensors, and displays to overlay digital information onto the user's physical surroundings, creating a composite view of the real and virtual worlds. AR can be experienced through devices such as smartphones, tablets, or smart glasses. Virtual Reality (VR), on the other hand, is a technology that creates a completely immersive, computer-generated environment. VR systems use head-mounted displays, haptic feedback devices, and other tools to create a simulated environment that can be experienced as if it were real. In a VR environment, users can interact with virtual objects and navigate through digital spaces. Both AR and VR have applications in fields such as entertainment, gaming, education, and healthcar...