1. Society- people who interact in such a way as to share a common culture. The cultural bond may be ethnic or racial or geographical, based on gender, or due to shared beliefs, values, and activities. 2. Culture- beliefs, behaviors, objects, and other characteristics common to the members of a particular group or society. 3. A unitary state- a state governed as one single power in which the central government is ultimately supreme and any administrative divisions (subnational units) exercise only powers that their central government chooses to delegate. The majority of states in the world have a unitary system of government. 4. A federal state-- a political entity characterized by a union of partially self- governing states or regions under a central (federal) government. 5. A multinational state- A multinational state is a sovereign state which is viewed as comprising two or more nations. Such a state contrasts with a nation-state where a single nation comprises the bulk of the p
immunity from aging altogether and not just what the previous generation called 'aging gracefully'. Mass media can yet be used constructively to teach the adults about the importance of insurance, financial education and how to maintain a healthy lifestyle. Mass media are media, which can be used to communicate and interact with a large number of audiences. Be it the pictorial messages of the early ages, or the high- technology media that are available today, one thing that we all agree upon, is that mass media are an inseparable part of our lives. Entertainment and media always go hand in hand, but in addition to the entertainment, mass media also remain to be an effective medium for communication, dissemination of information, advertising, marketing and in general, for expressing and sharing views, opinions and ideas. Mass media is a double-edged sword which means that there are positive effects of media as well as negative influences of media
Misusing and Abusing the IoT - Now and in the Future The Internet of Things is the network of physical objects—devices, vehicles, buildings and other items which are embedded with electronics, software, sensors, and network connectivity, which enables these objects to collect and exchange data [1]. As the amount of devices connected to the internet of things is constantly on the rise, making it innately more secure and protecting those devices from abuse, in a sense of unwanted access , manipulation by third parties and other scenarios, is rapidly turning into a pressing issue. According to some sources there were about 13.4 billion connected devices back in 2015 and the projections show there might be up to 38.5 billion such devices in 2020 [2]. As the number of devices increases, the necessity for a proper security mechanism concerning those devices becomes a priority in order to safely adopt the evergrowing internet of things into every aspect of a persons daily life. Privacy On
British Cuisine Some people criticize English food. They say it's unimaginable, boring, tasteless, it's chips with everything and totally overcooked vegetables. The basic ingredients, when fresh, are so full of flavour that British haven't had to invent sauces to disguise their natural taste. What can compare with fresh pees or new potatoes just boiled and served with butter? Why drown spring lamb in wine or cream and spices, when with just one or two herbs it is absolutely delicious? If you ask foreigners to name some typically English dishes, they will probably say "Fish and chips" then stop
oData transparency: In bit and byte oriented protocols, there is a problem if a control character (for ETX (End of Text) ·Same as ETB, only no more blocks will follow. ITB (End of > Differences with HDLC length of protocol field (1B or 2B) byte-oriented protocols) or the start-of-frame flag (for bit-oriented protocols) appears in the actual data. Intermediate Transmission Block) ·Same as ETB, except that the receiving statio Differs from HDLC because of multiaccess MAC that provides · Maximum payload length (default: 1500) This was not likely to happen in ASCII text, but is very likely with binary data. This is known as a data will not acknowledge after the error checking. EOT (End of Transmission) framing/error detection: · Type of CRC (2B or 4B) transparency problem an can be rectified with byte stuffing (for byte-orien
efektiivsus, jõudlus, tootlikkus, tõhusus, kasutegur (Cambridge Dictionary) 50. EFFORT a vigorous or determined attempt - jõupingutus, katse (Oxford Dictionary) 51. EMBEDDED - fixed into the surface of something sees olev, vahele lükitud (Cambridge Dictionary) 52. EMERGENCE - the fact of something becoming known or starting to exist - esilekerkimine, ilmumine (Cambridge Dictionary) 53. ENABLER - a person or thing that makes something possible võimaldaja (Oxford Dictionary) 54. ENERGY GRID - a network of cables or pipes for distributing power, especially high- voltage transmission lines for electricity elektivõrgustik (Oxford Dictionary) 55. ENHANCE - to improve the quality, amount, or strength of something - tõstma, tugevdama, kvaliteeti parandama, täiustama, parendama (Cambridge Dictionary) 56. ENTERPRISE - an organization, especially a business - ettevõte, üritus (Cambridge
SCIENCE AND TECHNOLOGY A century ago communication across any distance was dependent upon the telegraph or letters. No jets crossed the ocean, no television pictures enabled us instantly to see events in any part of the world, there were no worldwide telephone networks and no computers. It is just a short lifetime since humanity first travelled into space and discovered how fragile our planet looks. FROM FIREWORKS TO THE MOON At first glance you might think that there couldn't possibly be anything common between a 13 th century festival in China and the Apollo 11 moon landing in 1969. However, there is a link and that is that they both relied on the use of rockets. The Chinese first developed rockets by filling bamboo tubes with an explosive made from saltpetre, charcoal, and sulphur. The sealed tubes would be thrown onto fires during celebrations because it was thought that the loud explosions would protect them. It wa
But real parts that are used to measure real-world things have real tolerances. A 10K resistor can be between 9900 and 10,100 ohms if it has a 1% tolerance, or between 9990 and 10,010 ohms if it has .1% tolerance. In addition, the resistance varies with temperature. All the other parts in the system, including the sensors them- selves, have similar variations. While these will be addressed in more detail in Chapter 9, “High-Precision Applications,” the important thing from a system point of view is this: how will the required accuracy be achieved? For example, say we’re still trying to measure that 0-to-100°C temperature range. Measurement with 1°C accuracy may be achievable without adjust- ments. However, you might find that the .1°C figure requires some kind of calibration because you can’t get a temperature sensor in your price range with that accuracy. You may have to include an adjustment in the design to compensate for this variation.
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