__________ of carbon blocks in the hearth of blast furnace helps in avoiding skull formation, when it becomes cold. ?->(Show Answer!)

1. __________ of carbon blocks in the hearth of blast furnace helps in avoiding skull formation, when it becomes cold.

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MCQ-> Study the following information to answer the given questions : A word and number arrangen gel it machine when given an input line of words and numbers rearranges them following a particular rule. The following is an illustration of input and rearrangement. Input : 52 peak 91 snow freeze 46 cold 15 high 31 73 trek Step I : 15 52 peak snow freeze 46 cold high 31 73 trek 91 Step II : 15 31 52 peak snow freeze 46 cold high trek 73 91 Step III : 15 31 46 peak snow freeze cold high trek 52 73 91 Step IV : 15 31 46 cold peak snow freeze high trek 52 73 91 Step V : 15 31 46 cold freeze peak snow high trek 52 73 91 Step VI : 15 31 46 cold freeze high peak snow trek 52 73 91 Step VI is the last step of the rearrangement. As per the rules followed in the above steps, find out in each of the following questions the appropriate steps for the given input. Input for the questions. Input : 67 hot sun 19 best 83 ice 49 ace 77 cut 37How many steps would he needed to complete the arrangement
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MCQ-> Analyse the following passage and provide appropriate answers An example of scientist who could measure without instruments is Enrico Fermi (1901-1954), a physicist who won the Nobel Prize in physics in 1938. He had a well-developed knack for intuitive, even casual-sounding measurements. One renowned example of his measurement skills was demonstrated at the first detonation of the atom bomb, the Trinity Test site, on July 16, 1945, where he was one of the atomic scientists observing the blast from base camp. While final adjustments were being made to instruments used to measure the yield of the blast, Fermi was making confetti out of a page of notebook paper. As the wind from the initial blast wave began to blow through the camp, he slowly dribbled the confetti into the air, observing how far back it was scattered by the blast (taking the farthest scattered pieces as being the peak of the pressure wave). Fermi concluded that the yield must be greater than 10 kilotons. This would have been news, since other initial observers of the blast did not know that lower limit. After much analysis of the instrument readings, the final yield estimate was determined to be 18.6 kilotons. Like Eratosthenes, Fermi was aware of a rule relating one simple observation—the scattering of confetti in the wind —to a quantity he wanted to measure. The value of quick estimates was something Fermi was familiar with throughout his career. He was famous for teaching his students skills at approximation of fanciful-sounding quantities that, at first glance, they might presume they knew nothing about. The best-known example of such a "Fermi question" was Fermi asking his students to estimate the number of piano tuners in Chicago, when no one knows the answer. His students—science and engineering majors—would begin by saying that they could not possibly know anything about such a quantity. Of course, some solutions would be to simply do a count of every piano tuner perhaps by looking up advertisements, checking with a licensing agency of some sort, and so on But Fermi was trying to teach his students how to solve problems where the ability to confirm the results would not be so easy. He wanted them to figure out that they knew something about the quantity in question.Suppose you apply the same logic as Fermi applied to confetti, which of the following statements would be the most appropriate?
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