Prelude to Foundation Chapter 5 Upperside

TRANTOR-†¦ It is almost never pictured as a world seen from space. It has long since captured the general mind of humanity as a world of the interior and the image is that of the human hive that existed under the domes. Yet there was an exterior as well and there are holographs that still remain that were taken from space and show varying degrees of [devil] (see Figures 14 and 15). Note that the surface of the domes, the interface of the vast city and the overlying atmosphere, a surface referred to in its time as â€Å"Upperside,† is†¦ Encyclopedia Galactica 21. Yet the following day found Hari Seldon back in the library. For one thing, there was his promise to Hummin. He had promised to try and he couldn't very well make it a halfhearted process. For another, he owed something to himself too. He resented having to admit failure. Not yet, at least. Not while he could plausibly tell himself he was following up leads. So he stared at the list of reference book-films he had not yet checked through and tried to decide which of the unappetizing number had the slightest chance of being useful to him. He had about decided that the answer was â€Å"none of the above† and saw no way out but to look at samples of each when he was startled by a gentle tap against the alcove wall. Seldon looked up and found the embarrassed face of Lisung Randa peering at him around the edge of the alcove opening. Seldon knew Randa, had been introduced to him by Dors, and had dined with him (and with others) on several occasions. Randa, an instructor in psychology, was a little man, short and plump, with a round cheerful face and an almost perpetual smile. He had a sallow complexion and the narrowed eyes so characteristic of people on millions of worlds. Seldon knew that appearance well, for there were many of the great mathematicians who had borne it, and he had frequently seen their holograms. Yet on Helicon he had never seen one of these Easterners. (By tradition they were called that, though no one knew why; and the Easterners themselves were said to resent the term to some degree, but again no one knew why.) â€Å"There's millions of us here on Trantor,† Randa had said, smiling with no trace of self-consciousness, when Seldon, on first meeting him, had not been able to repress all trace of startled surprise. â€Å"You'll also find lots of Southerners-dark skins, tightly curled hair. Did you ever see one?† â€Å"Not on Helicon,† muttered Seldon. â€Å"All Westerners on Helicon, eh? How dull! But it doesn't matter. Takes all kinds.† (He left Seldon wondering at the fact that there were Easterners, Southerners, and Westerners, but no Northerners. He had tried finding an answer to why that might be in his reference searches and had not succeeded.) And now Randa's good-natured face was looking at him with an almost ludicrous look of concern. He said, â€Å"Are you all right, Seldon?† Seldon stared. â€Å"Yes, of course. Why shouldn't I be?† â€Å"I'm just going by sounds, my friend. You were screaming.† â€Å"Screaming?† Seldon looked at him with offended disbelief. â€Å"Not loud. Like this.† Randa gritted his teeth and emitted a strangled high-pitched sound from the back of his throat. â€Å"If I'm wrong, I apologize for this unwarranted intrusion on you. Please forgive me.† Seldon hung his head. â€Å"You're forgiven, Lisung. I do make that sound sometimes, I'm told. I assure you it's unconscious. I'm never aware of it.† â€Å"Are you aware why you make it?† â€Å"Yes. Frustration. Frustration.† Randa beckoned Seldon closer and lowered his voice further. â€Å"We're disturbing people. Let's come out to the lounge before we're thrown out.† In the lounge, over a pair of mild drinks, Randa said, â€Å"May I ask you, as a matter of professional interest, why you are feeling frustration?† Seldon shrugged. â€Å"Why does one usually feel frustration? I'm tackling something in which I am making no progress.† â€Å"But you're a mathematician, Hari. Why should anything in the history library frustrate you?† â€Å"What were you doing here?† â€Å"Passing through as part of a shortcut to where I was going when I heard you†¦ moaning. Now you see†-and he smiled-â€Å"it's no longer a shortcut, but a serious delay-one that I welcome, however.† â€Å"I wish I were just passing through the history library, but I'm trying to solve a mathematical problem that requires some knowledge of history and I'm afraid I'm not handling it well.† Randa stared at Seldon with an unusually solemn expression on his face, then he said, â€Å"Pardon me, but I must run the risk of offending you now. I've been computering you.† â€Å"Computering me!† Seldon's eyes widened. He felt distinctly angry. â€Å"I have offended you. But, you know, I had an uncle who was a mathematician. You might even have heard of him: Kiangtow Randa.† Seldon drew in his breath. â€Å"Are you a relative of that Randa?† â€Å"Yes. He is my father's older brother and he was quite displeased with me for not following in his footsteps-he has no children of his own. I thought somehow that it might please him that I had met a mathematician and I wanted to boast of you-if I could-so I checked what information the mathematics library might have.† â€Å"I see. And that's what you were really doing there. Well-I'm sorry. I don't suppose you could do much boasting.† â€Å"You suppose wrong. I was impressed. I couldn't make heads or tails of the subject matter of your papers, but somehow the information seemed to be very favorable. And when I checked the news files, I found you were at the Decennial Convention earlier this year. So†¦ what's ‘psychohistory,' anyway? Obviously, the first two syllables stir my curiosity.† â€Å"I see you got that word out of it.† â€Å"Unless I'm totally misled, it seemed to me that you can work out the future course of history.† Seldon nodded wearily, â€Å"That, more or less, is what psychohistory is or, rather, what it is intended to be.† â€Å"But is it a serious study?† Randa was smiling. â€Å"You don't just throw sticks?† â€Å"Throw sticks?† â€Å"That's just a reference to a game played by children on my home planet of Hopara. The game is supposed to tell the future and if you're a smart kid, you can make a good thing out of it. Tell a mother that her child will grow up beautiful and marry a rich man and it's good for a piece of cake or a half-credit piece on the spot. She isn't going to wait and see if it comes true; you are rewarded just for saying it.† â€Å"I see. No, I don't throw sticks. Psychohistory is just an abstract study. Strictly abstract. It has no practical application at all, except-â€Å" â€Å"Now we're getting to it. Exceptions are what are interesting.† â€Å"Except that I would like to work out such an application. Perhaps if I knew more about history-â€Å" â€Å"Ah, that is why you are reading history?† â€Å"Yes, but it does me no good,† said Seldon sadly. â€Å"There is too much history and there is too little of it that is told.† â€Å"And that's what's frustrating you?† Seldon nodded. Randa said, â€Å"But, Hari, you've only been here a matter of weeks.† â€Å"True, but already I can see-â€Å" â€Å"You can't see anything in a few weeks. You may have to spend your whole lifetime making one little advance. It may take many generations of work by many mathematicians to make a real inroad on the problem.† â€Å"I know that, Lisung, but that doesn't make me feel better. I want to make some visible progress myself.† â€Å"Well, driving yourself to distraction won't help either. If it will make you feel better, I can give you an example of a subject much less complex than human history that people have been working for I don't know how long without making much progress. I know because a group is working on it right here at the University and one of my good friends is involved. Talk about frustration! You don't know what frustration is!† â€Å"What's the subject?† Seldon felt a small curiosity stirring within him. â€Å"Meteorology.† â€Å"Meteorology!† Seldon felt revolted at the anticlimax. â€Å"Don't make faces. Look. Every inhabited world has an atmosphere. Every world has its own atmospheric composition, its own temperature range, its own rotation and revolution rate, its own axial tipping, it's own land-water distribution. We've got twenty five million different problems and no one has succeeded in finding a generalization.† â€Å"†¦ that's because atmospheric behavior easily enters a chaotic phase. Everyone knows that.† â€Å"So my friend Jenarr Leggen says. You've met him.† Seldon considered. â€Å"Tall fellow? Long nose? Doesn't speak much?† â€Å"That's the one.-And Trantor itself is a bigger puzzle than almost any world. According to the records, it had a fairly normal weather pattern when it was first settled. Then, as the population grew and urbanization spread, more energy was used and more heat was discharged into the atmosphere. The ice cover contracted, the cloud layer thickened, and the weather got lousier. That encouraged the movement underground and set off a vicious cycle. The worse the weather got, the more eagerly the land was dug into and the domes built and the weather got still worse. Now the planet has become a world of almost incessant cloudiness and frequent rains-or snows when it's cold enough. The only thing is that no one can work it out properly. No one has worked out an analysis that can explain why the weather has deteriorated quite as it has or how one can reasonably predict the details of its day-to-day changes.† Seldon shrugged. â€Å"Is that sort of thing important?† â€Å"To a meteorologist it is. Why can't they be as frustrated over their problems as you are over yours? Don't be a project chauvinist.† Seldon remembered the cloudiness and the dank chill on the way to the Emperor's Palace. He said, â€Å"So what's being done about it?† â€Å"Well, there's a big project on the matter here at the University and Jenarr Leggen is part of it. They feel that if they can understand the weather change on Trantor, they will learn a great deal about the basic laws of general meteorology. Leggen wants that as much as you want your laws of psychohistory. So he has set up an incredible array of instruments of all kinds Upperside†¦ you know, above the domes. It hasn't helped them so far. And if there's so much work being done for many generations on the atmosphere, without results, how can you complain that you haven't gotten anything out of human history in a few weeks?† Randa was right, Seldon thought, and he himself was being unreasonable and wrong. And yet†¦ and yet†¦ Hummin would say that this failure in the scientific attack on problems was another sign of the degeneration of the times. Perhaps he was right, also, except that he was speaking of a general degeneration and average effect. Seldon felt no degeneration of ability and mentality in himself. He said with some interest then, â€Å"You mean that people climb up out of the domes and into the open air above?† â€Å"Yes. Upperside. It's a funny thing, though. Most native Trantorians won't do it. They don't like to go Upperside. The idea gives them vertigo or something. Most of those working on the meteorology project are Outworlders.† Seldon looked out of the window and the lawns and small garden of the University campus, brilliantly lit without shadows or oppressive heat, and said thoughtfully, â€Å"I don't know that I can blame Trantorians for liking the comfort of being within, but I should think curiosity would drive some Upperside. It would drive me.† â€Å"Do you mean that you would like to see meteorology in action?† â€Å"I think I would. How does one get Upperside?† â€Å"Nothing to it. An elevator takes you up, a door opens, and there you are. I've been up there. It's†¦ novel.† â€Å"It would get my mind off psychohistory for a while.† Seldon sighed. â€Å"I'd welcome that.† â€Å"On the other hand,† said Randy, â€Å"my uncle used to say, ‘All knowledge is one,' and he may be right. You may learn something from meteorology that will help you with your psychohistory. Isn't that possible?† Seldon smiled weakly. â€Å"A great many things are possible.† And to himself he added: But not practical. 22. Dors seemed amused. â€Å"Meteorology?† Seldon said, â€Å"Yes. There's work scheduled for tomorrow and I'll go up with them.† â€Å"Are you tired of history?† Seldon nodded his head somberly. â€Å"Yes, I am. I'll welcome the change. Besides, Randy says it's another problem that's too massive for mathematics to handle and it will do me good to see that my situation isn't unique.† â€Å"I hope you're not agoraphobic.† Seldon smiled. â€Å"No, I'm not, but I see why you ask. Randy says that Trantorians are frequently agoraphobic and won't go Upperside. I imagine they feel uncomfortable without a protective enclosure†¦Ã¢â‚¬  Dors nodded. â€Å"You can see where that would be natural, but there are also many Trantorians who are to be found among the planets of the Galaxy-tourists, administrators, soldiers. And agoraphobia isn't particularly rare in the Outworlds either.† â€Å"That may be, Dors, but I'm not agoraphobic. I am curious and I welcome the change, so I'll be joining them tomorrow.† Dors hesitated. â€Å"I should go up with you, but I have a heavy schedule tomorrow. And, if you're not agoraphobic, you'll have no trouble and you'll probably enjoy yourself. Oh, and stay close to the meteorologists. I've heard of people getting lost up there.† â€Å"I'll be careful. It's a long time since I've gotten truly lost anywhere.† 23. Jenarr Leggen had a dark look about him. It was not so much his complexion, which was fair enough. It was not even his eyebrows, which were thick and dark enough. It was, rather, that those eyebrows were hunched over deep-set eyes and a long and rather prominent nose. He had, as a result, a most unmerry look. His eyes did not smile and when he spoke, which wasn't often, he had a deep, strong voice, surprisingly resonant for his rather thin body. He said, â€Å"You'll need warmer clothing than that, Seldon.† Seldon said, â€Å"Oh?† and looked about. There were two men and two women who were making ready to go up with Leggen and Seldon And, as in Leggen's own case, their rather satiny Trantorian clothing was covered by thick sweaters that, not surprisingly, were brightly colored in bold designs. No two were even faintly alike, of course. Seldon looked down at himself and said, â€Å"Sorry, I didn't know but I don't have any suitable outer garment.† â€Å"I can give you one. I think there's a spare here somewhere.-Yes, here it is. A little threadbare, but it's better than nothing.† â€Å"Wearing sweaters like these tan make you unpleasantly warm,† said Seldon. â€Å"Here they would,† said Leggen. â€Å"Other conditions exist Upperside. Cold and windy. Too bad I don't have spare leggings and boots for you too. You'll want them later.† They were taking with them a cart of instruments, which they were testing one by one with what Seldon thought was unnecessary slowness. â€Å"Your home planet cold?† asked Leggen. Seldon said, â€Å"Parts of it, of course. The part of Helicon I come from is mild and often rainy.† â€Å"Too bad. You won't like the weather Upperside.† â€Å"I think I can manage to endure it for the time we'll be up there.† When they were ready, the group filed into an elevator that was marked: OFFICIAL USE ONLY. â€Å"That's because it goes Upperside,† said one of the young women, â€Å"and people aren't supposed to be up there without good reason.† Seldon had not met the young woman before, but he had heard her addressed as Clowzia. He didn't know if that was a first name, a last name, or a nickname. The elevator seemed no different from others that Seldon had been on, either here on Trantor or at home in Helicon (barring, of course, the gravitic lift he and Hummin had used), but there was something about knowing that it was going to take him out of the confines of the planet and into emptiness above that made it feel like a spaceship. Seldon smiled internally. A foolish fantasy. The elevator quivered slightly, which remind Seldon of Hummin's forebodings of Galactic decay. Leggen, along with the other men and one of the women, seemed frozen and waiting, as though they had suspended thought as well as activity until they could get out, but Clowzia kept glancing at him as though she found him terribly impressive. Seldon leaned close and whispered to her (he hesitated to disturb the others), â€Å"Are we going up very high?† â€Å"High?† she repeated. She spoke in a normal voice, apparently not feeling that the others required silence. She seemed very young and it occurred to Seldon that she was probably an undergraduate. An apprentice, perhaps. â€Å"We're taking a long time. Upperside must be many stories high in the air.† For a moment, she looked puzzled. Then, â€Å"Oh no. Not high at all. We started very deep. The University is at a low level. We use a great deal of energy and if we're quite deep, the energy costs are lower.† Leggen said, â€Å"All right. We're here. Let's get the equipment out.† The elevator stopped with a small shudder and the wide door slid open rapidly. The temperature dropped at once and Seldon thrust his hands into his pockets and was very glad he had a sweater on. A cold wind stirred his hair and it occurred to him that he would have found a hat useful and, even as he thought that, Leggen pulled something out of a fold in his sweater, snapped it open, and put it on his head. The others did the same. Only Clowzia hesitated. She paused just before she put hers on, then offered it to Seldon. Seldon shook his head. â€Å"I can't take your hat, Clowzia.† â€Å"Go ahead. I have long hair and it's pretty thick. Yours is short and a little†¦ thin.† Seldon would have liked to deny that firmly and at another time he would have. Now, however, he took the hat and mumbled, â€Å"Thank you. If your head gets cold, I'll give it back.† Maybe she wasn't so young. It was her round face, almost a baby face. And now that she had called attention to her hair, he could see that it was a charming russet shade. He had never seen hair quite like that on Helicon. Outside it was cloudy, as it had been the time he was taken across open country to the Palace. It was considerably colder than it had been then, but he assumed that was because they were six weeks farther into winter. The clouds were thicker than they had been on the earlier occasion and the day was distinctly darker and threatening-or was it just closer to night? Surely, they wouldn't come up to do important work without leaving themselves an ample period of daylight to do it in. Or did they expect to take very little time? He would have liked to have asked, but it occurred to him that they might not like questions at this time. All of them seemed to be in states varying from excitement to anger. Seldon inspected his surroundings. He was standing on something that he thought might be dull metal from the sound it made when he surreptitiously thumped his foot down on it. It was not bare metal, however. When he walked, he left footprints. The surface was clearly covered by dust or fine sand or clay. Well, why not? There could scarcely be anyone coming up here to dust the place. He bent down to pinch up some of the matter out of curiosity. Clowzia had come up to him. She noticed what he was doing and said, with the air of a housewife caught at an embarrassing negligence, â€Å"We do sweep hereabouts for the sake of the instruments. It's much worse most places Upperside, but it really doesn't matter. It makes for insulation, you know.† Seldon grunted and continued to look about. There was no chance of understanding the instruments that looked as though they were growing out of the thin soil (if one could call it that). He hadn't the faintest idea of what they were or what they measured. Leggen was walking toward him. He was picking up his feet and putting them down gingerly and it occurred to Seldon that he was doing so to avoid jarring the instruments. He made a mental note to walk that way himself. â€Å"You! Seldon!† Seldon didn't quite like the tone of voice. He replied coolly, â€Å"Yes, Dr. Leggen?† â€Å"Well, Dr. Seldon, then.† He said it impatiently. â€Å"That little fellow Randa told me you are a mathematician.† â€Å"That's right.† â€Å"A good one?† â€Å"I'd like to think so, but it's a hard thing to guarantee.† â€Å"And you're interested in intractable problems?† Seldon said feelingly, â€Å"I'm stuck with one.† â€Å"I'm stuck with another. You're free to look about. If you have any questions, our intern, Clowzia, will help out. You might be able to help us.† â€Å"I would be delighted to, but I know nothing about meteorology.† â€Å"That's all right, Seldon. I just want you to get a feel for this thing and then I'd like to discuss my mathematics, such as it is.† â€Å"I'm at your service.† Leggen turned away, his long scowling face looking grim. Then he turned back. â€Å"If you get cold-too cold-the elevator door is open. You just step in and touch the spot marked; UNIVERSITY BASE. It will take you down and the elevator will then return to us automatically. Clowzia will show you-if you forget.† â€Å"I won't forget.† This time he did leave and Seldon looked after him, feeling the cold wind knife through his sweater. Clowzia came back over to him, her face slightly reddened by that wind. Seldon said, â€Å"Dr. Leggen seems annoyed. Or is that just his ordinary outlook on life?† She giggled. â€Å"He does look annoyed most of the time, but right now he really is.† Seldon said very naturally, â€Å"Why?† Clowzia looked over her shoulder, her long hair swirling. Then she said, â€Å"I'm not supposed to know, but I do just the same. Dr. Leggen had it all figured out that today, just at this time, there was going to be a break in the clouds and he'd been planning to make special measurements in sunlight. Only†¦ well, look at the weather.† Seldon nodded. â€Å"We have holovision receivers up here, so he knew it was cloudy worse than usual-and I guess he was hoping there would be something wrong with the instruments so that it would be their fault and not that of his theory. So far, though, they haven't found anything out of the way.† â€Å"And that's why he looks so unhappy.† â€Å"Well, he never looks happy.† Seldon looked about, squinting. Despite the clouds, the light was harsh. He became aware that the surface under his feet was not quite horizontal. He was standing on a shallow dome and as he looked outward there were other domes in all directions, with different widths and heights. â€Å"Upperside seems to be irregular,† he said. â€Å"Mostly, I think. That's the way it worked out.† â€Å"Any reason for it?† â€Å"Not really. The way I've heard it explained-I looked around and asked, just as you did, you know-was that originally the people on Trantor domed in places, shopping malls, sports arenas, things like that, then whole towns, so that (here were lots of domes here and there, with different heights and different widths. When they all came together, it was all uneven, but by that time, people decided that's the way it ought to be.† â€Å"You mean that something quite accidental came to be viewed as a tradition?† â€Å"I suppose so-if you want to put it that way.† (If something quite accidental can easily become viewed as a tradition and be made unbreakable or nearly so, thought Seldon, would that be a law of psychohistory? It sounded trivial, but how many other laws, equally trivial, might there be? A million? A billion? Were there a relatively few general laws from which these trivial ones could be derived as corollaries? How could he say? For a while, lost in thought, he almost forgot the biting wind.) Clowzia was aware of that wind, however, for she shuddered and said, â€Å"It's very nasty. It's much better under the dome.† â€Å"Are you a Trantorian?† asked Seldon. â€Å"That's right.† Seldon remembered Ranch's dismissal of Trantorians as agoraphobic and said, â€Å"Do you mind being up here?† â€Å"I hate it,† said Clowzia, â€Å"but I want my degree and my specialty and status and Dr. Leggen says I can't get it without some field work. So here I am, hating it, especially when it's so cold. When it's this cold, by the way, you wouldn't dream that vegetation actually grows on these domes, would you?† â€Å"It does?† He looked at Clowzia sharply, suspecting some sort of practical joke designed to make him look foolish. She looked totally innocent, but how much of that was real and how much was just her baby face? â€Å"Oh sure. Even here, when it's warmer. You notice the soil here? We keep it swept away because of our work, as I said, but in other places it accumulates here and there and is especially deep in the low places where the domes meet. Plants grow in it.† â€Å"But where does the soil come from?† â€Å"When the dome covered just part of the planet, the wind deposited soil on them, little by little. Then, when Trantor was all covered and the living levels were dug deeper and deeper, some of the material dug up, if suitable, would be spread over the top.† â€Å"Surely, it would break down the domes.† â€Å"Oh no. The domes are very strong and they're supported almost everywhere. The idea was, according to a book-film I viewed, that they were going to grow crops Upperside, but it turned out to be much more practical to do it inside the dome. Yeast and algae could be cultivated within the domes too, taking the pressure off the usual crops, so it was decided to let Upperside go wild. There are animals on Upperside too-butterflies, bees, mice, rabbits. Lots of them.† â€Å"Won't the plant roots damage the domes?† â€Å"In thousands of years they haven't. The domes are treated so that they repel the roots. Most of the growth is grass, but there are trees too. You'd be able to see for yourself if this were the warm season or if we were farther south or if you were up in a spaceship.† She looked at him with a sidewise flick of her eyes, â€Å"Did you see Trantor when you were coming down from space?† â€Å"No, Clowzia, I must confess I didn't. The hypership was never well placed for viewing. Have you ever seen Trantor from space?† She smiled weakly. â€Å"I've never been in spare.† Seldon looked about. Gray everywhere. â€Å"I can't make myself believe it,† he said. â€Å"About vegetation Upperside, I mean.† â€Å"It's true, though. I've heard people say-Otherworlders, like yourself, who did see Trantor from space-that the planet looks green, like a lawn, because it's mostly grass and underbrush. There are trees too, actually. There's a copse not very far from here. I've seen it. They're evergreens and they're up to six meters high.† â€Å"Where?† â€Å"You can't see it from here. Its on the other side of a dome. It's-â€Å" The call came out thinly. (Seldon realized they had been walking while they had been talking and had moved away from the immediate vicinity of the others.) â€Å"Clowzia. Get back here. We need you.† Clowzia said, â€Å"Uh-oh. Coming.-Sorry, Dr. Seldon, I have to go.† She ran off, managing to step lightly despite her lined boots. Had she been playing with him? Had she been filling the gullible foreigner with a mess of lies for amusement's sake? Such things had been known to happen on every world and in every time. An air of transparent honesty was no guide either; in fact, successful taletellers would deliberately cultivate just such an air. So could there really be six-meter trees Upperside? Without thinking much about it, he moved in the direction of the highest dome on the horizon. He swung his arms in an attempt to warm himself. And his feet were getting cold. Clowzia hadn't pointed. She might have, to give him a hint of the direction of the trees, but she didn't. Why didn't she? To be sure, she had been called away. The domes were broad rather than high, which was a good thing, since otherwise the going would have been considerably more difficult. On the other hand, the gentle grade meant trudging a distance before he could top a dome and look down the other side. Eventually, he could see the other side of the dome he had climbed. He looked back to make sure he could still see the meteorologists and their instruments. They were a good way off, in a distant valley, but he could see them clearly enough. Good. He saw no copse, no trees, but there was a depression that snaked about between two domes. Along each side of that crease, the soil was thicker and there were occasional green smears of what might be moss. If he followed the crease and if it got low enough and the soil was thick enough, there might be trees. He looked back, trying to fix landmarks in his mind, but there were just the rise and fall of domes. It made him hesitate and Dors's warning against his being lost, which had seemed a rather unnecessary piece of advice then, made more sense now. Still, it seemed clear to him that the crease was a kind of road. If he followed it for some distance, he only had to turn about and follow it back to return to this spot. He strode off purposefully, following the rounded crease downward. There was a soft rumbling noise above, but he didn't give it any thought. He had made up his mind that he wanted to see trees and that was all that occupied him at the moment. The moss grew thicker and spread out like a carpet and here and there grassy tufts had sprung up. Despite the desolation Upperside, the moss was bright green and it occurred to Seldon that on a cloudy, overcast planet there was likely to be considerable rain. The crease continued to curve and there, just above another dome, was a dark smudge against the gray sky and he knew he had found the trees. Then, as though his mind, having been liberated by the sight of those trees, could turn to other things, Seldon took note of the rumble he had heard before and had, without thinking, dismissed as the sound of machinery. Now he considered that possibility: Was it, indeed, the sound of machinery? Why not? He was standing on one of the myriad domes that covered hundreds of millions of square kilometers of the world-city. There must be machinery of all kinds hidden under those domes-ventilation motors, for one thing. Maybe it could be heard, where and when all the other sounds of the world-city were absent. Except that it did not seem to come from the ground. He looked up at the dreary featureless sky. Nothing. He continued to scan the sky, vertical creases appearing between his eyes and then, far off It was a small dark spot, showing up against the gray. And whatever it was it seemed to be moving about as though getting its bearings before it was obscured by the clouds again. Then, without knowing why, he thought, They're after me. And almost before he could work out a line of action, he had taken one. He ran desperately along the crease toward the trees and then, to reach them more quickly, he turned left and hurtled up and over a low dome, treading through brown and dying fernlike overgrowth, including thorny sprigs with bright red berries. 24. Seldon panted, facing a tree, holding it closely, embracing it. He watched for the flying object to make its appearance again so that he could back about the tree and hide on the far side, like a squirrel. The tree was cold, its bark was rough, it gave no comfort-but it offered cover. Of course, that might be insufficient, if he was being searched for with a heat-seeker, but, on the other hand, the cold trunk of a tree might blur even that. Below him was hard-packed soil. Even in this moment of hiding, of attempting to see his pursuer while remaining unseen, he could not help wondering how thick the soil might be, how long it had taken to accumulate, many domes in the warmer areas of Trantor carried forests on their back, and whether the trees were always confined to the creases between domes, leaving the higher regions to moss, grass, and underbrush. He saw it again. It was not a hypership, nor even an ordinary air-jet. It was a jet-down. He could see the faint glow of the ion trails corning out at the vertices of a hexagon, neutralizing the gravitational pull and allowing the wings to keep it aloft like a large soaring bird. It was a vehicle that could hover and explore a planetary terrain. It was only the clouds than had saved him. Even if they were using heat-seekers, that would only indicate there were people below. The jet-down would have to make a tentative dive below the banked ceiling before it could hope to know how many human beings there were and whether any of them might be the particular person the patties aboard were seeking. The jet-down was closer now, but it couldn't hide from him either. The rumble of the engine gave it away and they couldn't rum that off, not as long as they wished to continue their search. Seldon knew the jet-downs, for on Helicon or on any undomed world with skies that cleared now and then, they were common, with many in private hands. Of what possible use would jet-downs be on Trantor, with all the human life of the world under domes, with low cloud ceilings all but perpetual-except for a few government vehicles designed for just this purpose, that of picking up a wanted person who had been lured above the domes? Why not? Government forces could nor enter the grounds of the University, but perhaps Seldon was no longer on the grounds. He was on top of the domes which might be outside the jurisdiction of any local government. An Imperial vehicle might have every right to land on any part of the dome and question or remove any person found upon it. Hummin had not warned him of this, but perhaps he had merely not thought of doing so. The jet-down was even closer now, nosing about like a blind beast sniffing out its prey. Would it occur to them to search this group of trees? Would they land and send out an armed soldier or two to beat through the copse? And if so, what could he do? He was unarmed and all his quicktwist agility would be useless against the agonizing pain of a neuronic whip. It was not attempting to land. Either they missed the significance of the trees Or- A new thought suddenly hit him. What if this wasn't a pursuit vessel at all? What if it was part of the meteorological testing? Surely, meteorologists would want to test the upper reaches of the atmosphere. Was he a fool to hide from it? The sky was getting darker. The clouds were getting thicker or, much more likely, night was falling. And it was getting colder and would get colder still. Was he going to stay out here freezing because a perfectly harmless jet-down had made an appearance and had activated a sense of paranoia that he had never felt before? He had a strong impulse to leave the copse and get back to the meteorological station. After all, how would the man Hummin feared so much-Demerzel-know that Seldon would, at this particular time, be Upperside and ready to be taken? For a moment, that seemed conclusive and, shivering with the cold, he moved out from behind the tree. And then he scurried back as the vessel reappeared even closer than before. He hadn't seen it do anything that would seem to be meteorological. It did nothing that might be considered sampling, measuring, or testing. Would he see such things if they took place? He did not know the precise sort of instruments the jet-down carried or how they worked. If they were doing meteorological work, he might not be able to tell.-Still, could he take the chance of coming into the open? After all, what if Demerzel did know of his presence Upperside, simply because an agent of his, working in the University, knew about it and had reported the matter. Lisung Randa, that cheerful, smiling little Easterner, had suggested he go Upperside. He had suggested it quite forcefully and the subject had not arisen naturally out of the conversation; at least, not naturally enough. Was it possible that he was a government agent and had alerted Demerzel somehow? Then there was Leggen, who had given him the sweater. The sweater was useful, but why hadn't Leggen told him he would need one earlier so he could get his own? Was there something special about the one he was wearing? It was uniformly purple, while all the others' indulged in the Trantorian fashion of bright patterns. Anyone looking down from a height would see a moving dull blotch in among others that were bright and know immediately whom they wanted. And Clowzia? She was supposedly Upperside to learn meteorology and help t he meteorologists. How was it possible that she could come to him, talk to him at ease, and quietly walk him away from the others and isolate him so that he could easily be picked up? For that matter, what about Dors Venabili? She knew he was going Upperside. She did not stop it. She might have gone with him, but she was conveniently busy. It was a conspiracy. Surely, it was a conspiracy. He had convinced himself now and there was no further thought of getting out from the shelter of the trees. (His feet felt like lumps of ice and stamping them against the ground seemed to do no good.) Would the jet-down never leave? And even as he thought that, the pitch of the engine's rumble heightened and the jet-down rose into the clouds and faded away. Seldon listened eagerly, alert to the smallest sound, making sure it was finally gone. And then, even after he was sure it was gone, he wondered if that was just a device to flush him out of hiding. He remained where he was while the minutes slowly crawled on and night continued to fall. And finally, when he felt that the true alternative to taking the chance of coming out in the open was that of freezing into insensibility, he stepped out and moved cautiously beyond the shelter of the trees. It was dusky twilight, after all. They couldn't detect him except by a heat-seeker, but, if so, he would hear the jet-down return. He waited just beyond the trees, counting to himself, ready to hide in the copse again at the smallest sound-though what good that would do him once he was spotted, he couldn't imagine. Seldon looked about. If he could find the meteorologists, they would surely have artificial light, but except for that, there would be nothing. He could still just make out his surroundings, but in a matter of a quarter of an hour, half an hour at the outside, he would not. With no lights and a cloudy sky above, it would be dark-completely dark. Desperate at the prospect of being enveloped in total darkness, Seldon realized that he would have to find his way back to the crease that had brought him there as quickly as possible and retrace his steps. Folding his arms tightly around himself for warmth, he set off in what he thought was the direction of the crease between the domes. There might, of course, be more than one crease leading away from the copse, but he dimly made out some of the sprigs of berries he had seen coming in, which now looked almost black rather than bright red. He could not delay. He had to assume he was right. He moved up the crease as fast as he might, guided by failing sight and by the vegetation underfoot. But he couldn't stay in the crease forever. He had come over what had seemed to him to be the tallest dome in sight and had found a crease that cut at right angles across his line of approach. By his reckoning, he should now turn right, then sharp left, and that would put him on the path toward the meteorologists' dome. Seldon made the left turn and, lifting his head, he could just make out the curve of a dome against the fractionally lighter sky. That had to be it! Or was that only wishful thinking? He had no choice but to assume it wasn't. Keeping his eye on the peak so that he could move in a reasonably straight line, he headed for it as quickly as he could. As he got closer, he could make out the line of dome against sky with less and less certainty as it loomed larger and larger. Soon, if he was correct, he would be going up a gentle slope and when that slope became level he would be able to look down the other side and see the lights of the meteorologists. In the inky dark, he could not tell what lay in his path. Wishing there were at least a few sorts to shed some light, he wondered if this was how it felt to be blind. He waved his arms before him as if they were antennae. It was growing colder by the minute and he paused occasionally to blow on his hands and hold them under his armpits. He wished earnestly he could do the same for his feet. By now, he thought, if it started to precipitate, it would be snow-or, worse yet, sleet. On†¦ on. There was nothing else to do. Eventually, it seemed to him that he was moving downward. That was either wishful thinking or he had topped the dome. He stopped. If he had topped the dome, he should be able to see the artificial light of the meteorological station. He would see the lights carried by the meteorologists themselves, sparkling or dancing like fireflies. Seldon closed his eyes as though to accustom them to dark and then try again, but that was a foolish effort. It was no darker with his eyes closed than with them open and when he opened them it was no lighter than when he had had them closed. Possibly Leggen and the others were gone, had taken their lights with them and had turned off any lights on the instruments. Or possibly Seldon had climbed the wrong dome. Or he had followed a curved path along the dome so that he was now facing in the wrong direction. Or he had followed the wrong crease and had moved away from the copse in the wrong direction altogether. What should he do? If he was facing the wrong direction, there was a chance that light would be visible right or left-and it wasn't. If he had followed the wrong crease, there was no possible way he could return to the copse and locate a different crease. His only chance lay in the assumption that he was facing the right direction and that the meteorological station was more or less directly ahead of him, but that the meteorologists had gone and had left it in darkness. Move forward, then. The chances of success might be small, but it was the only chance he had. He estimated that it had taken him half an hour to move from the meteorological station to the top of the dome, having gone partway with Clowzia and sauntering with her rather than striding. He was moving at little better than a saunter now in the daunting darkness. Seldon continued to slog forward. It would have been nice to know the time and he had a timeband, of course, but in the dark. He stopped. He wore a Trantorian timeband, which gave Galactic Standard time (as all timebands did) and which also gave Trantorian local time. Timebands were usually visible in the dark, phosphorescing so that one could tell time in the quiet dark of a bedchamber. A Heliconian timeband certainly would; why not a Trantorian one? He looked at his timeband with reluctant apprehension and touched the contact that would draw upon the power source for light. The timeband gleamed feebly and told him the time was 1847. For it to be nighttime already, Seldon knew that it must be the winter season.-How far past the solstice was it? What was the degree of axial tipping? How long was the year? How far from the equator was he at this moment? There was no hint of an answer to any of these things, but what counted was that the spark of light was visible. He was not blind! Somehow the feeble glow of his timeband gave him renewed hope. His spirits rose. He would move on in the direction he was going. He would move for half an hour. If he encountered nothing, he would move on five minutes more-no further-just five minutes. If he still encountered nothing, he would stop and think. That, however, would be thirty-five minutes from now. Till then, he would concentrate only on walking and on willing himself to feel warmer (He wiggled his toes, vigorously. He could still feel them.) Seldon trudged onward and the half hour passed. He paused, then hesitantly, he moved on for five more minutes. Now he had to decide. There was nothing. He might be nowhere, far removed from any opening into the dome. He might, on the other hand, be standing three meters to the left-or right-or short-of the meteorological station. He might be two arms' lengths from the opening into the dome, which would not, however, be open. Now what? Was there any point in shouting? He was enveloped by utter silence but for the whistling of the wind. If there were birds, beasts, or insects in among the vegetation on the domes, they were not here during this season or at this time of night or at this particular place. The wind continued to chill him. Perhaps he should have been shouting all due way. The sound might have carried a good distance in the cold air. But would there have been anyone to hear him? Would they hear him inside the dome? Were there instruments to detect sound or movement from above? Might there not be sentinels just inside? That seemed ridiculous. They would have heard his footsteps, wouldn't they? Still- He called out. â€Å"Help! Help! Can someone hear me?† His cry was strangled, half-embarrassed. It seemed silly shouting into vast black nothingness. But then, he felt it was even sillier to hesitate in such a situation as this. Panic was welling up in him. He took in a deep, cold breath and screamed for as long as he could. Another breath and another scream, changing pitch. And another. Seldon paused, breathless, turning his head every which way, even though there was nothing to see. He could not even detect an echo. There was nothing left to do but wait for the dawn. But how long was the night at this season of the year? And how cold would it get? He felt a tiny cold touch sting his face. After a while, another. It was sleeting invisibly in the pitch blackness. And there was no way to find shelter. He thought: It would have been better if that jet-down had seen me and picked me up. I would be a prisoner at this moment, perhaps, but I'd be warm and comfortable, at least. Or, if Hummin had never interfered, I might have been back in Helicon long ago. Under surveillance, but warm and comfortable. Right now that was all he wanted-to be warm and comfortable. But at the moment he could only wait. He huddled down, knowing that however long the night, he dared not sleep. He slipped off his shoes and rubbed his icy feet. Quickly, he put his shoes back on. He knew he would have to repeat this, as well as rubbing his hands and ears all night long to keep his circulation flowing. But most important to remember was that he must not let himself fall asleep. That would mean certain death. And, having carefully thought all this out, his eyes closed and he nodded off to sleep with the sleet coming down.

“The Most Valuable Thing in Life Is Friendship”. Do You Agree?

In this era of globalization, people are busy chasing for material wealth,leaving behind many valuable things. It is undeniable that our society is becoming more materialistic. For most of us,money is the most important thing on earth. However, we have forgotten that there are certain things which money could not buy. To name a few,friendship,family,love and health. But which is the most valuable thing in our life? In my opinion,friendship is what I will cherish the most. Admittedly,depression had become a big menace in our society. People start to concern about this issue and it has surely become a hot topic nowadays. Mass media has been trying hard to give solutions to the public,hoping to reduce the impact of depression,such as suicides. However,people are becoming more individualistic nowadays. We are selfish and only mind their own business. Worse off,we no longer see the value of a true friendship. Instead,we love to compete among each other,either to get a higher position in class or in a company. More disheartening is, some even set friends up just to achieve success. This phenomenon certainly do not help those who are suffered from depression They have no where to seek for help as they hardly find a friend they could trust to talk to. As we all know,the cost of getting professional help is rather pricey and not everyone can afford it. Therefore,I believe that nothing is more important than we,as a part of the society,change our mindset and see the importance of a true friendship, namely the most valuable things in life. A friend is a listener,a counselor, a supporter and the list is endless. A friend is also someone we can trust. The reason I am of the opinion that friendship is the most valuable thing in life is a friend is always be there for us and is always ready to give us a helping hand. For instances,a friend can help to take care of our homes and pets while we are on vacation. When we are depressed,a friend is also ready to listen and give us advice. The value of friendship is also seen in the business. There are many businessmen and entrepreneur that always highlight the importance of friendship in their life. They shared their experience,which their friends offered them modal to start their business and promoted their business. Those who are working in the insurance sector also. One of the qualities to success in this field is having a wide social circle. In short,I believe that friendship is really the most important and valuable thing in life. However,I could not deny the fact that family is also one valuable thing in life. Whenever we met a problem,the first one we'll think of is our family. It is always true that family will never betray us and is able to forgive our every mistakes. We grew up with our family members and therefore,the strong bonding causes them to be the one that understand us the most and will give us suitable advice to make a decision. Many successful figures show that they cherish their family and always try their best to spend some precious time with family. Many good qualities we possess now, too,were inculcated since we're young by our dear parents. The undivided love from our family makes it one valuable thing to cherish in our life. There are also many things to cherish in life. To name a few,knowledge is also valuable because with a wide knowledge,others will not look down upon us. Our own reputation and image can be increased with vast knowledge we gained in our life. Health, too, is what we should cherish in our life. Without a healthy body,we will not be able to enjoy our life. To summary,there are too many valuable things to be cherish in our life besides friendship. To conclude,we should not take a true friendship for granted. Instead,it is imperative for us to put as much effort as we could to conserve the value of a friendship,which is the most valuable thing in our life, as it brings us immense benefit. If you think it is bad,forgive me. I am still learning to produce a nice piece of work. And,honestly,it is better than what I've written in my MUET test just now.

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Sociology - Essay Example Karl Marx was an infamous theorist whose â€Å"Alienation† theory describes society as a whole striving to perfect the world and at its peak of success with abundant resources; it fails to do so because it is flawed through individual isolation (Kivisto 3). Humans cannot conquer nature or practice self-control when it comes to the exploitation of resources. Even the heavy operation of an object alienates a man. Marx explains: For it is clear on this presupposition that the more the worker expends himself in work the more powerful becomes the world of objects which he creates in face of himself, the poorer he becomes in his inner life, and the less he belongs to himself. (Wendling 13) Although, mankind has the ability to feed every one and counter hunger, people continue to starve. Marx says this is due to the fact that when a man alienates himself from other men, he in-turn alienates himself from human life (Wendling 17). Marx believes that a man does not belong to himself when he is performing an act that constitutes as cultural practice because it is society that is placing its social imprint on him. For example, â€Å"The worker puts his life into the object, and his life then belongs no longer to himself, but to the object† (Wendling 13). A man, therefore, belongs to the object. This is society affecting the self. Durkheim’s theory of â€Å"Social Fact† does not stray far from Marx’s idea. That is because he divides social facts into two categories: material and nonmaterial. The material aspect corresponds with Marx’s description of an object and how it influences an individual’s social behavior. Where Marx says this is what alienates a man, Durkheim describes it as the drive behind what society cherishes or assigns purpose to communally (Kivisto 16). If the social facts are revealed, it can help scientists and sociologists examine the causes and effects of behaviors and laws among mankind. For instance, Durkheim studied suicide rates

Different Sociological Perspectives Essay Example for Free

Different Sociological Perspectives Essay Critically Analyse and Evalute The Different Sociological Perspectives On The Types of Family And Households In Britain. Evaluate Their Functions And Roles. To What Extent Do They Take Into Account The Diversity of Family Types In Britain? In this essay I will be looking at the different sociological theories as they relate to the family household, functions and roles. The socialists include The Functionalist , The Marxist, The Feminists, The New Rights and The Post Modernisms. There is an array of different family types. These include the nuclear family, reconstituted family/step family, single parent family, cultural family, and even more so in the modern times an evolution of different and alternative family types are getting more common such as gay families. The nuclear family is seen as the most traditional family type. It is one where you have a married couple with children, whereby the male is the head of the household and the sole breadwinner and the female takes on the responsibilities of the household and the care of the children. This type of family was a very common type in the early days compared to the present period in the Europe however, according to Browne (n.d), Pakistani and Bangladeshi families are most likely to live in the traditional nuclear family type. In modern days with divorce on the increase nuclear family types have been replaced with reconstituted families and single parented families. Reconstituted families consist of separated or divorced people who enter a new relationship with someone that already has children. Single parented families are one that consists of one parent that takes care of the child. According to Browne (n.d) ninety per cent of this type of family is headed by women. The nuclear family is the family type that is regarded to the Functionalist, Marxists and the New Rights as the most ideal. The main functionalists’ theories of the family are G.P Murdock and Talcott Parsons. They view the family as a tool in order for the society to function. Ken Browne (n.d) suggests that the Functionalists believe that the development of an individual is helped by the upbringing from the family. The reason why Parsons believes in the nuclear family is because he believes that the male and the female both serve a role within the family that benefits society. He believes that the female has an expressive role whereby the females’ nature is to be emotionally supportive to her children and husband, providing them with love and nurture. The males’ role is to be instrumental, whereby his duty is to be the provider of the family. Browne (n.d) suggests that Parsons states that the male instrumental role can cause stress and anxiety in which the females’ expressive role takes place in order to soothe her husbands’ tension. The problem with this view is that the functionalists do not take into account that now in modern times we have an array of family types and family roles have been reversed. For instance, it is very common now for a woman to have a job and be the breadwinner in helping maintain the family. It is also very common for men to be the main carer of the home and the children, especially when you take into account that the rise of unemployed men is high due to the recession, and as a result of this, men are actually taking expressive role into action and the female the instrumental role. And also the nuclear family is now decreasing. The tradition of children within a marriage isn’t as common as it was in the past as now cohabitation is a common family type. Also divorce rates are high resulting in reconstituted families and single families. The expression for the instrumental and expressive roles isn’t as valid when you apply them into the roles of the sexes, as now with the increase of different family types the roles can be reversed or one parent could provide the instrumental and expressive role. Marxists do not view the family as acting in the interest of society as a whole but more in the form of a superstructure that benefits the capitalist system. â€Å"Marxist see the family within the framework of a capitalist society, which is based on private property, driven by profit and is riddled with conflict between social classes with opposing interest†. (Browne pg 123) According to the Marxists the industrial aspects and the reproduction of people and generations contributes to the system by them working to maintain the economic system. This view on the family fails to take into account the sociological benefits a family can have outside of the industrial perspective. Brown (n.d) states that Engles, an early Marxists, believed that the monogamous practice of the nuclear family guarantees the paternity of the children, therefore ensuring that private property was passed down to the right people. There is also the perception that women married for material gain as, like t he functionalists, they believed men should be the breadwinners and women should stay home and take care of the children. As their view concentrates mainly on the structural perspectives to society they fail to take into account the emotional side of the family and the fact that couples do actual marry for love. As I mentioned earlier, it is now very common for women to work and earn their own money and to be independent therefore minimising Engles’ view on the perception that women married for money and security. Their view on the importance of the nuclear family suggests they do not recognise the wide diversity in the families we now have today as not all families are nuclear. Reconstituted families, in some cases property or money could be shared equally amongst step-children and paternal children, this also indicates that Engles hadn’t taken to account the varieties of the different family types. However, in most Muslim marriages they tend to be arranged and due to the strong religious influence divorce rates are dramatically low in comparison with European and Afro-Caribbean marriages . Due to the nuclear family setting in Muslim marriages, Engles theory would best describes them. Browne (n.d) states that the Marxist Feminist has an extended view on the Marxist perspective as the feminists focuses mainly on the female contribution to the family. They highlight the key issues on the negative effects of family life towards women, e.g. domestic violence, which the Functionalist and the Marxists do not acknowledge. Radical Feminist highlights that patriarchy is the cause of restriction on women. They highlight that the duty that women undertake as carer of children restricts them in their workplace and that the upbringing they give to their children socializes them so that they are fit for the working environment. They believe that women’s unpaid domestic labour benefits the capitalist system. The key problem with the Marxist feminists is that they do not take into account the diversity of modern families. It’s as if they assume that every family consists of a heterosexual nuclear family. Gay families as well as other types of families are not even taken into account in this view. Browne suggests that they also paint a very negative perspective of family life making the family to the woman a burden when in reality not all women feel this way. Some women love the fact that they are considered in their family as the main nurturer, and in other families the roles are shared equally between the mother and father as it very common for both parents to work. With this said as women have their own source of income women are less obliged to remain with their partner if they are unhappy, highlighting the fact that, according to Browne (n.d) , 70 per cent of women initiate divorces. The New Right theory is politically themed as opposed to socially. They believe that the decline in the traditional nuclear family contributes to various social problems such as spending on welfare, underachievement and the existence of the ‘underclass’ (criminals). The New Right do not take into account that some nuclear families do also have their problems. The feminists have addressed that domestic violence does take place within the nuclear family. This in turn could affect a child to the point where that child is deeply affected by these incidents within the family home which results him/her to be a nuisance to society in which case, a single parented family would indeed lessen the problems as the domestic problem would have been taken out of the equation. The functions of the New Rights are just indeed theories that all of which do not have any evidence to back them up. The Post Modernisms embraces every family type and states that no family structure should be considered as more desirable than others. They state that an individual can experience various family structures throughout their lifespan. Although the Post Modernism’s theory does not discriminate households that are deemed as ‘not ideal for society’ by other socialist groups, they appear not to have any boundaries which can be detrimental for society and the individual as they do not enforce a degree of structure. The commonality between all the sociological theories that I have discussed so far is that none of them have taken into account the cultural differences and views of the family. The nuclear family is not universally accepted. An example of this shown by (FAMILY AND HOUSEHOLD BOOKLET-NO AUTHOR/DATE) mentions that Kibbutz, an Israeli family type, is one that consists of the community taking on the responsibility of the family as opposed to the parents. (THE BOOK STATES) â€Å"In the early Kibbutzim, childrearing was separated as much as possible from the marriage relationship, with children kept apart from their natural parents for much of the time and brought up in the children’s house by metapelets†¦. It is one of the most famous and successful attempts to establish an alternative to the family†. (p117) The Jewish way of life proves that other family type such as theirs can be successful, shadowing the Nuclear family type status to be the most effective way of family life. Another example as to why cultural differences have been overlooked is that Polygyny tends to be quite common in the Muslim culture. This type of family setting would not go in the favour of what the Marxist stand for as the Marxist believes in the monogamy setting where one husband and one wife is all that is required. The fact that socialists’ still use theories from the earlier period shows that their perspectives are very old fashioned and dated. In the earlier days the numbers of ethnic minorities, homosexuality and divorce in Great Britain was considerably lower to the numbers of today. This suggests that the perspectives were aimed solely for the European nuclear society. As the number of ethnic minorities, homosexuality and divorce features so largely in Britain, the perspectives is in some need of amending as they do not benefit people from different family types and cultures. Bibliography Aiken Dave; Chapman Steve: Moore Stephen, (n.d), Sociology AS For AQA Browne Ken, (n.d), Sociology for AS AQA 3rd Edition New Right and Postmodernist, (n.d), To introduce New Right and Postmodernist perspectives on the nuclear family, available at: http://www.educationforum.co.uk/sociology_2/post.htm Postmodern Sociology, (n.d), available at: http://www.allaboutworldview.org/postmodern-sociology.htm

Water Content Or Moisture Content Environmental Sciences Essay

Water Content Or Moisture Content Environmental Sciences Essay Water content  or  moisture content  is the quantity of  water  contained in a material, such as  soil  (called  soil moisture),  rock,  ceramics, fruit, or  wood. Water content is used in a wide range of scientific and technical areas, and is expressed as a ratio, which can range from 0 (completely dry) to the value of the materials  porosity  at saturation. It can be given on a volumetric or mass (gravimetric) basis. The water content of a material is used in expressing the phase relationships of air, water, and solids in a given volume of material. In fine-grained (cohesive) soils, the consistency of a given soil type depends on its water content. The water content of a soil, along with its liquid and plastic limits as determined by Test Method  D4318, is used to express   its relative consistency or liquidity index. The quality of the result produced by this standard is dependent on the competence of the personnel performing it, and the suitability of the equipment and facilities used. Agencies that meet the criteria of Practice  D3740  are generally considered capable of competent and objective testing/sampling/inspection/etc. Users of this standard are cautioned that compliance with Practice  D3740  does not in itself ensure reliable results. The mass of water used in the above expression is the mass of free pore water only. Hence for moisture content determination the soil samples are dried to the temperature at which only pore water is evaporated. This temperature was standardized 105 C to 110 C. Soils having gypsum are dried at 60C to 80 C. The quantity of soil sample needed for the determination of moisture content depends on the gradation and the maximum size of particles. Following quantities are recommended. Soil Max quantity used (gm) Coarse gravel 1000 to 2000 Fine gravel 300 to 500 Coarse sand 200 Medium sand 50 Fine sand 25 Silt and clays 10 to 25 Moisture content affection : Always the amount of moisture contents affects the soil strongly by different issues , and this is the dramatically classifications of the different amounts of the moisture content in the soil : The soil is called ( brittle solid ) when its in a dry state or have a very little amount of moisture content inside the soil , and it will be hard and brittle as a result of that , though it breaks before it will deform ( hard candy ). The soil is described as ( semi-solid ) when its have a little amount of moisture content in it , thatà ¢Ã¢â‚¬Å¡Ã‚ ¬Ãƒ ¢Ã¢â‚¬Å¾Ã‚ ¢s not able to cancel the solidity in the soil because of the little amount of it in the soil , and the behavior of the soil will be between the brittle and ductile state , and though it deforms permanently but with cracks ( like stiff cheese ). The soil described also as ( plastic ) when it have a noticed amount of moisture content which have an appearance affect in the soil , when the amount of the water content is nor little neither much in the soil , and the behavior of the soil in the state will noticed directly while catching the samlple of the soil by hand , it will have a very ductile , malleable behavior , thatà ¢Ã¢â‚¬Å¡Ã‚ ¬Ãƒ ¢Ã¢â‚¬Å¾Ã‚ ¢s will deform without cracking ( like play-doh ). The soil in the last case , is the ( liquid ) soil which will have for sure a big amount of moisture content inside it , it we can notice that easily by slight moving or even by the naked eye , which will be like a thick or thin viscous fluid or like a soup. Actually always there is a limits between each state of the moisture content for the soil , and these limits called the consistency or atterberg limits of the soil , and to talk more briefly about the ( Atterberg Limits ) : The  Atterberg limits  are a basic measure of the nature of a fine-grained  soil. Depending on the  water content  of the soil, it may appear in four states: solid, semi-solid, plastic and liquid. In each state the consistency and behavior of a soil is different and thus so are its engineering properties. Thus, the boundary between each state can be defined based on a change in the soils behavior. The Atterberg limits can be used to distinguish between  silt  and  clay, and it can distinguish between different types of silts and clays. These limits were created by  Albert Atterberg, a  Swedishchemist.[1]  They were later refined by  Arthur Casagrande. These distinctions in soil are used in picking the soils to build structures on top. Soils when wet retain water and expand in volume. The amount of expansion is related to the ability of the soil to take in water and its structural  make up  (the type of atoms present). These tests are mainly used on clayey or silty soils since these are the soils that expand and shrink due to moisture content. Clays and silts react with the water and thus change sizes and have varying shear strengths. Thus these tests are used widely in the preliminary stages of building any structure to ensure that the soil will have the correct amount of  shear strength  and not too much change in volume as it expands and shrinks with different moisture contents, aand here is the informations about the three atterberg limits , shrinkage , plastic and liquid limit : Shrinkage limit The shrinkage limit (SL) is the water content where further loss of moisture will not result in any more volume reduction.[2]  The test to determine the shrinkage limit is  ASTM International  D4943. The shrinkage limit is much less commonly used than the liquid and plastic limits. [edit]Plastic limit The plastic limit is determined by rolling out a thread of the fine portion of a soil on a flat, non-porous surface. The procedure is defined in ASTM Standard D 4318. If the soil is plastic, this thread will retain its shape down to a very narrow diameter. The sample can then be remoulded and the test repeated. As the moisture content falls due to evaporation, the thread will begin to break apart at larger diameters. The plastic limit is defined as the moisture content where the thread breaks apart at a diameter of 3 mm (about 1/8). A soil is considered non-plastic if a thread cannot be rolled out down to 3mm at any moisture. [edit]Liquid limit The liquid limit (LL) is the water content at which a soil changes from plastic to liquid behavior. The original liquid limit test of Atterbergs involved mixing a pat of clay in a round-bottomed porcelain bowl of 10-12cm diameter. A groove was cut through the pat of clay with a spatula, and the bowl was then struck many times against the palm of one hand. Casagrande subsequently standardized the apparatus and the procedures to make the measurement more repeatable. Soil is placed into the metal cup portion of the device and a groove is made down its center with a standardized tool of 13.5 millimetres (0.53  in) width. The cup is repeatedly dropped 10mm onto a hard rubber base at a rate of 120 blows per minute, during which the groove closes up gradually as a result of the impact. The number of blows for the groove to close is recorded. The moisture content at which it takes 25 drops of the cup to cause the groove to close over a distance of 13.5 millimetres (0.53  in) is defined as the liquid limit. The test is normally run at several moisture contents, and the moisture content which requires 25 blows to close the groove is interpolated from the test results. The Liquid Limit test is defined by ASTM standard test method D 4318.[3]  The test method also allows running the test at one moisture content where 20 to 30 blows are requi red to close the groove; then a correction factor is applied to obtain the liquid limit from the moisture content..[4] The following is when you should record the N in number of blows needed to close this 1/2-inch gap: The materials needed to do a Liquid limit test are as follows Casagrande cup (liquid limit device) Grooving tool Soil pat before test Soil pat after test Another method for measuring the liquid limit is the  fall cone test. It is based on the measurement of penetration into the soil of a standardized cone of specific mass. Although the Casagrande test is widely used across North America, the  fall cone test  is much more prevalent in Europe due to being less dependant on the operator in determining the Liquid Limit. http://upload.wikimedia.org/wikipedia/commons/thumb/1/16/Atterberg_limits_02.JPG/220px-Atterberg_limits_02.JPG http://upload.wikimedia.org/wikipedia/commons/thumb/2/24/Casagrande_2.JPG/220px-Casagrande_2.JPG [edit]Importance of Liquid Limit test The importance of the liquid limit test is to classify soils. Different soils have varying liquid limits. Also to find the plasticity index of a soil you need to know the liquid limit and the plastic limit. [edit]Derived limits The values of these limits are used in a number of ways. There is also a close relationship between the limits and properties of a soil such as compressibility, permeability, and strength. This is thought to be very useful because as limit determination is relatively simple, it is more difficult to determine these other properties. Thus the Atterberg limits are not only used to identify the soils classification, but it allows for the use of empirical correlations for some other engineering properties. [edit]Plasticity index The plasticity index (PI) is a measure of the plasticity of a soil. The plasticity index is the size of the range of water contents where the soil exhibits plastic properties. The PI is the difference between the liquid limit and the plastic limit (PI = LL-PL). Soils with a high PI tend to be clay, those with a lower PI tend to be silt, and those with a PI of 0 (non-plastic) tend to have little or no silt or clay. PI and their meanings 0 Nonplastic (1-5)- Slightly plastic (5-10) Low plasticity (10-20)- Medium plasticity (20-40)- High plasticity >40 Very high plasticity [edit]Liquidity index The liquidity index (LI) is used for scaling the natural water content of a soil sample to the limits. It can be calculated as a ratio of difference between natural water content, plastic limit, and liquid limit: LI=(W-PL)/(LL-PL) where W is the natural water content. The effects of the water content on the strength of saturated remolded soils can be quantified by the use of the liquidity index, LI: When the LI is 1, remolded soil is at the liquid limit and it has an undrained shear strength of about 2 kPa. When the soil is at the plastic limit, the LI is 0 and the undrained shear strength is about 200 kPa.[4][11] [edit]Activity The activity (A) of a soil is the PI divided by the percent of clay-sized particles (less than 2 ÃŽÂ ¼m) present. Different types of clays have different specific surface areas which controls how much wetting is required to move a soil from one phase to another such as across the liquid limit or the plastic limit. From the activity, one can predict the dominant clay type present in a soil sample. High activity signifies large volume change when wetted and large shrinkage when dried. Soils with high activity are very reactive chemically. Normally the activity of clay is between 0.75 and 1.25, and in this range clay is called normal. It is assumed that the plasticity index is approximately equal to the clay fraction (A = 1). When A is less than 0.75, it is considered inactive. When it is greater than 1.25, it is considered active. After briefly explaining the the differences between the amounts of moisture content in the soil , we should explain a vey important issue , which is the methods of affection of the moisture content in the soil which is : Strength decreases as water content increases. à ´Ãƒ ¢Ã¢â‚¬Å¡Ã‚ ¬Ãƒ ¢Ã¢â€š ¬Ã… ¡Ãƒ ¢Ã¢â€š ¬Ã… ¾ Soils swell-up when water content increases. à ´Ãƒ ¢Ã¢â‚¬Å¡Ã‚ ¬Ãƒ ¢Ã¢â€š ¬Ã… ¡Ãƒ ¢Ã¢â€š ¬Ã… ¾ Fine-grained soils at very high water content possess properties similar to liquids. à ´Ãƒ ¢Ã¢â‚¬Å¡Ã‚ ¬Ãƒ ¢Ã¢â€š ¬Ã… ¡Ãƒ ¢Ã¢â€š ¬Ã… ¾ As the water content is reduced, the volume of the soil decreases and the soils become plastic. à ´Ãƒ ¢Ã¢â‚¬Å¡Ã‚ ¬Ãƒ ¢Ã¢â€š ¬Ã… ¡Ãƒ ¢Ã¢â€š ¬Ã… ¾ If the water content is further reduced, the soil becomes semi-solid when the volume does not change. And to talk more about the affection of the moisture aontent in the soil , this is a general affection of the moisture content in the soil at nature : The effect of increasing soil  moisture content  on soil temperature, soil reflectance and soil heat storage is studied in this work. The results show that an increase in  moisture content  decreases the soil temperature differences between day-time and night-time, which provides protection to the plant root system against sharp and sudden changes of soil temperature. It is also found that the solar energy absorption increases as the  moisture content  increases, which results in a higher heat storage capacity at higher  moisture content. Finally, plant growth rate and yield increased due to the modification of plant climate at higher moisture content Water content is an important property of soils, in ¯uencing soil solution chemistry and nutrient uptake by plants.Morphology and other speci ®c properties of the root, nutrient concentration in the soil solution, the mobility of nutrients in the soil, and supply from solid phases, aÃÆ' ¯Ã‚ ¬Ãƒ ¢Ã¢â‚¬Å¡Ã‚ ¬ect nutrient uptake (Nye and Tinker, 1977; Barber, 1995). Consequently, there are consistent diÃÆ' ¯Ã‚ ¬Ãƒ ¢Ã¢â‚¬Å¡Ã‚ ¬erences in concen- trations of elements near the rhizoplane at a range of soil water contents (Dunham and Nye, 1976). Soil chemical properties may exert a profound in ¯uence on growth and performance of plants (Grime and Curtis, 1976), and soil concentrations of several elements may be closely related to oristic composition (Tyler, 1996a). Under  ®eld conditions, soil moisture  ¯uctuates with temperature and rainfall. By changing soil solution chemistry, moisture  ¯uctuations could regulate the availability of nutrients, and the  ®eld distributi on of plant species. Water has a very different thermal conductivity than most soil particles and air (the thermal properties of the soil are determined by these three). The thermal conductivity of water is much greater than that of air, so the higher the soil moisture content the greater the thermal conductivity.  The greater the soil moisture content, the more the soil thermal conductivity is like that of water. Therefore, a saturated soil has a conductivity near that of water.  However, just because the soil moisture content is high, doesnt mean that the soil will warm up faster in the Sun than a dry soil. Evaporation of the water will remove much of the Suns energy before the soil will have a chance to warm.  Therefore, dry soils do warm up faster from sunlight and cool faster at night. This is assuming that there isnt a vegetation cover over the soil. Most wet soils evaporate the water, keeping the soil from warming as fast during the day, and cool more slowly at night because of their greater heat capacity (because of the higher water content).   Moisture content phase diagrame : this is a rough photo about the general form of the phase diagram of the soil , that we use always for calculation done for moisture contents and all other issues in the soil : http://upload.wikimedia.org/wikipedia/commons/thumb/5/54/Soil-phase-diagram.svg/300px-Soil-phase-diagram.svg.png Weight Components: à ´Ãƒ ¢Ã¢â‚¬Å¡Ã‚ ¬Ãƒ ¢Ã¢â€š ¬Ã… ¡Ãƒ ¢Ã¢â€š ¬Ã… ¾ Weight of Solids = Ws à ´Ãƒ ¢Ã¢â‚¬Å¡Ã‚ ¬Ãƒ ¢Ã¢â€š ¬Ã… ¡Ãƒ ¢Ã¢â€š ¬Ã… ¾ Weight of Water = Ww à ´Ãƒ ¢Ã¢â‚¬Å¡Ã‚ ¬Ãƒ ¢Ã¢â€š ¬Ã… ¡Ãƒ ¢Ã¢â€š ¬Ã… ¾ Weight of Air ~ 0 Volume Components: à ´Ãƒ ¢Ã¢â‚¬Å¡Ã‚ ¬Ãƒ ¢Ã¢â€š ¬Ã… ¡Ãƒ ¢Ã¢â€š ¬Ã… ¾ Volume of Solids = Vs à ´Ãƒ ¢Ã¢â‚¬Å¡Ã‚ ¬Ãƒ ¢Ã¢â€š ¬Ã… ¡Ãƒ ¢Ã¢â€š ¬Ã… ¾ Volume of Water = Vw à ´Ãƒ ¢Ã¢â‚¬Å¡Ã‚ ¬Ãƒ ¢Ã¢â€š ¬Ã… ¡Ãƒ ¢Ã¢â€š ¬Ã… ¾ Volume of Air = Va à ´Ãƒ ¢Ã¢â‚¬Å¡Ã‚ ¬Ãƒ ¢Ã¢â€š ¬Ã… ¡Ãƒ ¢Ã¢â€š ¬Ã… ¾ Volume of Voids = Va + Vw = Vv Weight-Volume Relationships : à ´Ãƒ ¢Ã¢â‚¬Å¡Ã‚ ¬Ãƒ ¢Ã¢â€š ¬Ã… ¡Ãƒ ¢Ã¢â€š ¬Ã‚   Steps to develop the weight-volume relationship à ´Ãƒ ¢Ã¢â‚¬Å¡Ã‚ ¬Ãƒ ¢Ã¢â€š ¬Ã… ¡Ãƒ ¢Ã¢â€š ¬Ã… ¾ Separate the three phases à ´Ãƒ ¢Ã¢â‚¬Å¡Ã‚ ¬Ãƒ ¢Ã¢â€š ¬Ã… ¡Ãƒ ¢Ã¢â€š ¬Ã… ¾ The total volume of a soil à ´Ãƒ ¢Ã¢â‚¬Å¡Ã‚ ¬Ãƒ ¢Ã¢â€š ¬Ã… ¡Ãƒ ¢Ã¢â€š ¬Ã… ¾ Assuming the weight of air (Wa) to be negligible, the total weight is then given as V = Vs + Vv = Vs + Vw + Va W =Ws +Ww Objectives Practical Applications This is some properties that we could conclude the state of it in the soil from knowing the amount of moisture content in the soil : à ¢Ã¢â‚¬Å¡Ã‚ ¬ Storability of the soil à ¢Ã¢â‚¬Å¡Ã‚ ¬ Agglomeration in the case of powders à ¢Ã¢â‚¬Å¡Ã‚ ¬ Microbiolgical stability à ¢Ã¢â‚¬Å¡Ã‚ ¬ Flow properties, viscosity à ¢Ã¢â‚¬Å¡Ã‚ ¬ Dry substance content à ¢Ã¢â‚¬Å¡Ã‚ ¬ Concentration or purity à ¢Ã¢â‚¬Å¡Ã‚ ¬ Commercial grade (compliance with quality agreements) à ¢Ã¢â‚¬Å¡Ã‚ ¬ Nutritional value of the product à ¢Ã¢â‚¬Å¡Ã‚ ¬ Legal conformity (statutory regulations governing food) Objectives : To learn the procedures of finding moisture content in the soil , and the variety in methods using to determine the moisture content. To determine the quantity of moisture content in the soil by good , accurate , safe , sheep way. To learn the differences in affection on the soil due to different amounts of moisture content in the soil To know the performance of the soil due to different amounts of moisture contents. To know how to use geotechnical laboratory tools, Such as the oven , balance , soil containers and all other different tools To know the importance of this experiment in the field work and how it affects the type and method of foundations must put upon different types of structures. Practical Applications : Moisture content plays an important role in understanding the behavior of fine grained soils. It is the moisture content which changes the soils from liquid state to plastic and solid states. Its value controls the shear strength and compressibility of soils. Compaction of soils in the field is also controlled by the quantity of water present. Densities of soils are directly influenced by its value and are used in calculating the Stability of slopes, bearing capacity of soils-foundation system, earth pressure behind the retaining walls and pressure due to overburden. The knowledge of determining the moisture content is helpful in many of the laboratory tests such as Atterbergà ¢Ã¢â‚¬Å¡Ã‚ ¬Ãƒ ¢Ã¢â‚¬Å¾Ã‚ ¢s limits, shears strength compaction and consolidation. This experiment may be performed by two different methods. Geotechnical Engineering- I A. Oven drying method B. Torsion balance moisture content Actully we use the moisture content experiment mainly for getting the amount of water content inside the soil to be able to make the classification needs in the field for this soil ,and though to know how could we use this soil and where it could work and the amount of compaction needs of the soil containing a different amounts of water contents , to get the last conclusion from this important experiment , which is that the moisture content determination in the in situ in all field project is from the most important things that getting me ready to know the method of foundation thatà ¢Ã¢â‚¬Å¡Ã‚ ¬Ãƒ ¢Ã¢â‚¬Å¾Ã‚ ¢s need above this soil to build on it at the end , stable , strong and good structure on it . In biological applications there can also be a distinction between physisorbed water and free water à ¢Ã¢â‚¬Å¡Ã‚ ¬ the physisorbed water being that closely associated with and relatively difficult to remove from a biological material. The method used to determine water content may affect whether water present in this form is accounted for. For a better indication of free and bound water, the  water activity  of a material should be considered. Water molecules may also be present in materials closely associated with individual molecules, as water of crystallization, or as water molecules which are static components of protein structure. In conclusion , Knowing the amount of moisture content of a substance helps determining if the soil is suitable for a specific use. Such like:- To know if the soil can hold structure safely for long time safely and serviceability or not. To be able and ready for the design of the foundation of any type of the structures. Determining and controlling the moisture in substances is unique and necessary for many products, and the process borders between art and science , in many and variable sides of the life and nature knowing how the Soil water regulates soil temperature by different amounts and shape of moisture content. Soil water serves as a solvent and carrier of food nutrients for plant growth. Tools , equipments and specimens Equipments that we have use in the laboratory for the moisture content determination experiment : Soil container : Ità ¢Ã¢â‚¬Å¡Ã‚ ¬Ãƒ ¢Ã¢â‚¬Å¾Ã‚ ¢s a container which is ceramic containers of various shapes on light wood background Stock Photo 8282849 used to put different types of soil inside it or a combined types with others in the same container , and we have used it in this experiment to put a random type of fine-grained soil inside it and mix it with to determine the wight of it , and actually Soil container there are many sizes of the soil container upon to the quantity of soil need to put it in the container. IMG_0212.JPG SpatulaSpatula : it is an aluminum thin tool use to put soil by it in the soil container and for mixing the soil and water with each other in the soil container and also ità ¢Ã¢â‚¬Å¡Ã‚ ¬Ãƒ ¢Ã¢â‚¬Å¾Ã‚ ¢s used for transfering soil from container and put it into heat resistance pot which is made of steel. IMG_0209.JPG Steel ContainerSteel Container : it is a container made of steel that have a heat resistance quality , which used to put the moist (wet) sample of soil inside it , to put the moist sample then inside the oven to dry the sample of the soil. Digital Balance : is the instrument use to weigh the different things , that not have an enormous weights , and it used in this experiment to weigh the soil container alone once , and to weight the soil container with soil inside it then. Digital Balance http://www.supplierlist.com/photo_images/167132/Vacuum_Drying_Oven.jpg Oven DryOven Dry : it is an apparatus used to heat the specimens needs to heat in the laboratories , and it was used in this experiment to dry the moist sample of soil. moist soil sample : the wet soil > Dry soil sample : the dry soil sample before putting in the oven sample after putting in the ovenIMG_0209.JPGIMG_0211.JPG Moist Soil Sample Dry soil sample Background Based on the literature review, the feasibility of using microwave oven to determine moisture content of soils is well demonstrated. In addition to the GS, there is an available international standard test method (ASTM D4643) for such determination. This method includes requirements to control the power ratings of microwave ovens and the period of drying procedure. Therefore, the possibility of overheating of a soil sample can be greatly reduced. In addition, the soil sample is required to be carefully mixed after each time of ovens heating for a certain period in order to prevent non-uniform heating of the sample. And in this experiment we going to compute the moisture content using this test method method be determine the weight of the soil before and after the dry process by the laboratory oven dry ,and then compute by a dramatically series of calculations the amount of moisture content in that sample of soil given in the laboratory. Procedures According to ASTM 2216, the dry and clean container should be weighted using balance and its mass recorded. A representative sample should be selected . The moist representative sample should be placed in the container. The lid should be secured in its position. The mass of the container with the sample should be taken and recorded. The lid should be removed and specimen should be placed in the oven. The sample should be dried in the oven at. The container should be removed from the oven when the sample reach a constant weight which means all the water has been evaporated. The specimen should be weighted and recorded. The moisture content then calculated by a series of calculations , and below in the next paragraph , all of the data and calculations is explained preefly by a list of numbers. Work Sheet DETERMINATION OF WATER (MOISTURE) à ¢Ã¢â‚¬Å¡Ã‚ ¬ CONTENT Lab. Humidity : 57% Lab. Temperature : 20.5 0C Moist Fine Grained Sample Of Soil Testing Stander ASTM : D2216-92 Moisture Condition : Moisture Added Type Of Oven : Convection Oven Method Of Drying : Continuous Heating Mass Of Moist Sample = 20 g Soil Passing 4.75 mm. (No.4) Sieve = 100% Soil Passing 37.5 mm. Sieve =100% B3 6 OBSERVATIONS Sample No. Container No. 9.5 g Mass Of Container 29.5 g Mass Of Wet Soil + Container 28.0 g Mass Of Dry Soil + Container CALCULATIONS 1.5 g Mass Of Water 18.5 g Mass Of Dry Soil 8.1% % Water Content Formulas Calculation Formulas: 1) Mass of water = (Mass of wet soil + container ) à ¢Ã¢â‚¬Å¡Ã‚ ¬ (Mass of dry soil + container) Mw = Mcws à ¢Ã¢â‚¬Å¡Ã‚ ¬ Mcs 2) Mass of dry soil = (Mass of dry soil + container ) à ¢Ã¢â‚¬Å¡Ã‚ ¬ (Mass of container ) Ms = Mcs à ¢Ã¢â‚¬Å¡Ã‚ ¬ Mc 3) water content = (Mass of water)/(Mass of dry soil) *100 w = Mw / Ms *100 Calculation: 1) Mass of water = 29.5 à ¢Ã¢â‚¬Å¡Ã‚ ¬ 28.0 = 1.5 (g) 2) Mass of soil = 28.0 à ¢Ã¢â‚¬Å¡Ã‚ ¬ 9.5 = 18.5 (g) 3) Water content = 1.5/18.5 * 100 = 8.1% Discussion The  measurement  of  moisture  content is a lab or a  procedure  used  to measure  the  amount of  moisture  or water that is embedded in a certain content in the soil , actually , the intended purpose for this lab or  procedure  once again as stated before is  to measure  the amount of  moisture  in a content. Times  in construction  we often need soil that must be suitable for building. In some cases  the soil  there and depending on where the land is located,  the soil  may not hold  foundation of  a building well.  In order for us to find out if  the soil  is durable enough to hold the  foundation of  a building we might have  to measure  the  moisture  of the content. When the percent of water is found we can than choose of  the soil  is suitable enough for the  foundation of  the building. actully the most important thing we have concluded from the experiment of determining the moisture content in the soil , is to know how much amount of compaction needs for this soil under the foundation to held the structure safely. Actully all foundations (including abutment) surfaces shall be shaped one horizontal to one vertical or flatter except as otherwise specified.And after stripping (due to stripping specification), the foundation shall be loosened thoroughly by scarifying or plowing to a minimum depth of six inches. The foundation shall then be compacted to the density and moisture requirements specified for the fill Areas that are too low after stripping and shaping must be filled to base grade with compacted fill equal to that used in other parts of the project, and eventhough the moisture content determination is from the most important tests that is from the basics we need in the Geo-technichal engineering, and later on in the foundation design. Conclusion The result of water content we get in the experiment after quit dry of the sample in the oven dry was 8.1% which is not acceptable to be able for building over it. Ità ¢Ã¢â‚¬Å¡Ã‚ ¬Ãƒ ¢Ã¢â‚¬Å¾Ã‚ ¢s quite high for fine grain. This means ità ¢Ã¢â‚¬Å¡Ã‚ ¬Ãƒ ¢Ã¢â‚¬Å¾Ã‚ ¢s not safe to build a structure, because the maximum allowable water content for grain is 1 %. Also this experiment is very important in Civil Engineering. Before construction ità ¢Ã¢â‚¬Å¡Ã‚ ¬Ãƒ ¢Ã¢â‚¬Å¾Ã‚ ¢s very obligatory to know the water content of the soil. If the water content is very high and construction is done, that might cause damage to structure which will appear later. Actully , for each type of soil has its own capacity to keep the structure safe. For example, If the sample is coarse the maximum allowable water content is 6%. While for fine its 1% , so the last result we get from the determination of the moisture contents in this soil is that , with this high amount of moisture content we can not use this soid for the construction purposes , and if we try to do , it will cause a big proplems and damage in the building later in the future and will neve ever by safety to use it in the civil society. Type of errors Personal errors:- Personal errors such as mistakes in reading from the balance , or mistakes done by wrong transferring data to the data sheet ,also the delaying of time taking out sample from oven it can cause error. Instrumental errors:- Errors might occur in digital balance due to the amount of accuracy of the digital balance. The reading also will change because of air condition. To eliminate such type of errors the reading should be taken several times. Environmental errors:- Moisture in lab and air of air condition can cause errors in readings , and though will not give us the absolute amount of moisture content , and the temperature in the laboratory affecting the sample of soil and instruments in the lab , all of these invironmental factors could give us wrong readings in the esperiment.