Child Development 0 19 Years Essay Example

Child Development 0 19 Years Essay Describe the expected pattern of children and young people’s development from birth – 19 years. 0 – 3 Months Physical development Many babies who are under three months old cry a lot. From birth, a babys reflexes will allow them to turn their heads and to suckle when you touch their cheek. Their sucking and grasping reflexes will develop. They can flex and extend their fingers, arms and legs. By about 4 weeks their eyes can follow a moving light, although it may only be for a few seconds. By 2-3 months, they can watch and follow a moving face. By 6 weeks their eyes can move together most of the time. When lying on their stomach they will start to lift their heads and chest and support the upper body with their arms. By 2 months, they will enthusiastically kick their legs and will push down on them when their feet are placed on a firm surface. Communication and Intellectual development A baby this young will watch faces intently and will begin to imitate movements and facial expressions. They will start to recognize familiar objects and people at a distance. They will start Smiling and cooing in response to others, and will start to babble and even imitate some sounds. We will write a custom essay sample on Child Development 0 19 Years specifically for you for only $16.38 $13.9/page Order now We will write a custom essay sample on Child Development 0 19 Years specifically for you FOR ONLY $16.38 $13.9/page Hire Writer We will write a custom essay sample on Child Development 0 19 Years specifically for you FOR ONLY $16.38 $13.9/page Hire Writer By about 8 weeks they will listen to what you say, then make noises back as they talk to you. Babies will turn their heads toward the direction of sound. Babies at this age will have different cries for different needs. Social, emotional and behavioural development Between 4 – 8 weeks, babies watches you face when you talk to them. They often begin to smile at a familiar face by around 4 to 6 weeks, and will look at you carefully from around the same time. By 3 months, they can laugh out loud. 3 Months – 1 year Physical development Between 3 to 6 months baby will start rolling over back to front, they might start sitting up with support and possibly unsupported. Passing toys from one hand to the other and banging them together will create great amusement to baby. They will start following objects with her eyes and judging accurately how near and far away they are. From 6 – 9 months they will start sitting up without being supported, they will start standing up, cruise furniture and perhaps even walk. Some infants never crawl, however, by 9 months, many babies find crawling to be an exciting way to get around. Their hand eye coordination will develop even more. Develop full colour vision and distance vision matures. By now babies will hear and see as well as an adult. They can reach with one hand and transfer objects from one and to another. Between 9 – 12 months babies can crawls forwards on their bellies, pull themself up to stand, walk holding on to furniture, and may even walk two or three steps without support. Reaches sitting position without assistance and can get from sitting to crawling. They will take objects out of containers and poke with their index finger. They can use the pincer grasp and will let objects go voluntarily. By now they have triple their birth weight. Communication and Intellectual development A baby between 3 – 6 months will watch faces closely, responds to their own name. Baby will smiles at the sound of a familiar voice and starts to babble and imitate some sounds. They will respond to music and turn their heads toward sound. They will vocalise excitement and pleasure. Baby will start making gurgling sounds when left alone and playing with you. Between 6 – 9 months babies begin to develop a better awareness of the world. They will develop the ability to realize that objects still exist, despite the fact that they are out of sight. They will be able to finds partially hidden objects. Babies at this age will explore with their hands and mouth. By 12 months babies will explores objects in many different ways (shaking, banging, throwing, and dropping) and will finds hidden objects easily. They can looks at the correct picture when an image is named they will also imitate gestures. Babies will begin to use objects correctly. Start to recognise common words like milk, cup, shoe, and respond to simple requests. Social, emotional and behavioural development Babies between 3 – 6 months will begin to display a social smile, they will enjoys social play and might get upset when playing stops. They will express themselves and communicate more with their face and body. Baby will be drawn to their own image in the mirror. Might start to learn how to comfort themselves. Baby will respond to other peoples expressions of emotion. Between 6 – 9 months babies might develop what is called â€Å"stranger anxiety†. This period is not permanent, and usually fades over time. They will seek attention and show strong feelings about likes and dislikes. Baby begins to recognize and identify their own feelings and that they are different, they will also begin to realize that they are a separate person. By the end of year 1 baby might still appear shy or anxious with strangers and may cry when the caregiver leaves. They enjoy imitation and will repeat sounds or gestures, engage you in a conversation and copy simple hand games like clap hands or bye bye. Show specific preferences for certain people and toys. They test parental responses to their behaviour. Baby will enjoy finger-feeding themselves. They will start to extend arm or leg to help when being dressed. Peek-a-boo and hiding are favourite games because they play out in a simple way the comings and goings of people that baby has come to recognize and depend upon. 1 – 2 Years Physical Development Baby will walk without assistance, and might even walk backwards. Baby would be able to use their feet to push themself along on a ride-on. They can move from sitting to standing by using their hands to push themselves up, and can pick up toys while standing. They can push and pull objects, paint and scribble. Baby will love climbing on and off furniture and may begin to run. Start feeding themselves and drink from a cup without needing help. They have mastered the pincer grip and can now pick up small objects. By the end of year 2 they can take off an article of clothing. Baby can run in a direction with accuracy and stop when they need to. Most toddlers can walk down stairs while holding onto the banister. They can push buttons and turn knobs. Communication and Intellectual development They will recognize themselves in the mirror. They will find objects when hidden. Toddlers will understand and responds properly to words and commands. They can distinguish between â€Å"you† and â€Å"me†. May even begin to match similar objects. They will say more words every month by 12 months they can say about 1-3 words, 18 months about 10-50 words, 24 months about 300 words they will also use some simple questions. Toddlers at this age will start putting two words together in a basic sentence. They can point to body parts and pictures in books. They use objects for their intended purpose. Because of their developing imagination, they have trouble knowing what is real and what is pretend. They’ll request information by saying, ‘What’s that? . They will enhance words with gestures and tone of voice. Social, emotional and behavioural development Toddlers will become more communicative and expressive with face and body and imitate some movements and facial expressions. They develop a sense of security. They will be curious and energetic but he depends on an adults presence for reassurance. Toddler s at this age enjoy repetitive games. They show a interest in other children but usually just plays alongside them. They want to do its all themselves and may experience unbearable frustration if they cant master a task. Their ability to feed themselves is slowly improving and they are likely to be choosey about what they eat. 2 – 3 Years Physical Development Toddlers between 2 – 3 years are very active, they can run forward, jump in place with one foot, kick a ball, bend over and climb over things with ease. Toddlers can help dress and undress themselves and hold a pencil in a writing position. They will start making up-and-down, side-to-side, and circular lines with pencil or crayon. They can turns book pages one at a time, and enjoy building towers. They will start to screw and unscrews jar lids, nuts, and bolts and turn rotating handles. They can walk up and down stairs, alternating feet (one foot per stair step). Communication and Intellectual development Toddlers will start to observe and imitate more complex actions, and follow a two- or three-part command. They are typically egocentric, or self-centred, in their thinking. Start to use two or three word sentences, and will understand differences in meanings. They start to plays make-believe with dolls, animals, and people, and can make mechanical toys work. Some toddlers can complete puzzles with three or four pieces, and will start to understand the concept of two. They can recognize and identify almost all common objects and pictures. By the end of 3 years they would Use pronouns and some plurals, and strangers would be able to understand most of their words. Social, emotional and behavioural development They will continue to explore the world around them. They start to show affection for others, and will express affection more openly. Toddlers will be able to play by himself or herself, but might start to show challenging behaviour. They will imitate adults and playmates. They can take turns in games and understands the concept of mine and his/hers. Toddlers at this age will express a wide range of emotions and may object to major changes in routine. A 2-3 year old cannot yet understand reason or control their impulses. 3 – 7 Years Physical Development By the end of year 4 they can walk backwards and forwards unselfconsciously; turn and stop well. They can jump off low steps or objects, but find it hard to jump over objects. They will run around obstacles and balance on one foot unsteadily. Toddlers will love to Push, pull, steer toys, throwing and catching a ball. They will begin to ride trikes. They will play actively, but tire suddenly. They can dress and undress themselves. 4 – 5 year olds can Jumps forwards many times, do somersaults, skip unevenly and walk up and down stairs. Might be able to stand on one foot for five seconds, and will judge well when placing feet on climbing structures. They will enjoy jumping on a small trampoline. They have increased endurance in play. They will start to draw crosses, circles and even a person. Between 5 – 7 years the large muscles in their arms and legs are more developed than small muscles children can bounce a ball and run, but it is difficult to do both at the same time. They can walk backward quickly; skip and run with agility and speed. They will start to incorporate motor skills into games. They would be able to jump over objects, hop well, climb well, jump down several steps; jump rope and coordinate movements for swimming or bike riding. They have high energy levels in play and rarely show signs of fatigue. Their coordination for catching and throwing will continue to increase. They also have an improved reaction time in response. Fine motor skill development will continue to improve, they will be able to use a pencil to make letters words, and sentences. Children would be able draw people, houses and trees in more detail. They will be able to do a series of motions in a row in order to do a complicated motor activity. They would be able to balance on one foot for 10 seconds or more. Communication and Intellectual development Between 3 – 4 years children have pretty much mastered some basic rules of grammar use many sentences that have more than four words. The average 3 ? year old knows more than 1200 words. They also understands simple questions, and ask a lot of â€Å"why† and â€Å"how† questions. They will be able to tell people their own name and age. Children at this age will start to attend to activities for longer periods of time, they learn by observing and listening. Children will shows awareness of past and present and follow a series of two to four directions. They can point to and names colours, grasp the concept of counting they may even know a few numbers. They understand order and process. Also they start to play around with words a lot more and engage in fantasy play. By the time they are 5 they will be able to uses sentences that give lots of detail and tell stories that stick to a topic and is longer. They will also start to answer simple questions about a story. They can count 10 or more objects and correctly name at least four or more colours. They improve on their understanding of time. They might know a few nursery rhymes which they can say, repeat or sing. Between 5 – 7 years there is a rapid development of mental skills, children would have greater ability to describe experiences and talk about thoughts and feelings. They will begin to think logically, and will have greater concern for others. Their comprehension and use of language becomes more sophisticated. They will share opinions in clear speech and engage in conversations. Children have a receptive vocabulary of approximately 20,000 words. Start to understand ‘left’ and ‘right’. Social, emotional and behavioural development By the end of year 5 children would develops friendships and interact with other children. They are learning to understand about the feelings and needs of others, and their behaviour shows that they can feel sympathy for others and can share their toys and take turns. Start to engage in pretend play and will often develop favourite games like mummies and daddies and superman. They start to compares themselves to others. Children have a good understanding of right and wrong. They will become more independent and can usually separate from parents/carers without distress. They become aware of their gender. Sometimes children would be demanding, and other times they will be eagerly cooperative. By the time children are 7 they have an even stronger sense of right and wrong. They have an increased ability to engage in competition. They begin to have awareness of the future and grow a greater understanding about ones place in the world. Start to have feelings about how they look and how they are growing. Children in this age group are aware of being a girl or a boy and often prefer to play with children of their sex. 7 – 9 years Physical Development Children will start to gain weight faster, and grow an average of 2. 5 inches per year. In these years many children place great emphasis on the development of their own physical ability. Being able to do handstands, hit the ball, ride fast, etc, often carries considerable status within the peer group. Generally speaking their energy levels are high and they can do a fast majority of physical activities. They will become more graceful with their movements and abilities. By the end of year 9 they will be able to dress and groom themselves completely. They have the ability to use tools. Communication and Intellectual development Children at this age are often very excited by, and genuinely interested in, the outside world. They can absorb information with enthusiasm. They have beginning skills in reading, writing and maths and the capacity to express relatively complex ideas. Sadly they will begin to understand that Father Christmas is not real. They might be able to tell the time and will have some understanding of money. They can start to plan ahead and know left hand rom right. Children will now know the different tenses (past, now and future) and would be able to use correct tenses in sentences. They can tell jokes and riddles. At about 8 children would be confident using the telephone. Many will begin to enjoy reading a book on their own. Social, emotional and behavioural development There will be a gradual development of children’s social skills. Children have a great desire to fit in and be accepted by their peer group. Children want to play with children of the same sex and sometimes stereotype members of the opposite sex. They will have increased confidence and greater responsibility. They will like to win at games but will not yet be able to lose cheerfully. They are starting at 8-9 years to understand another person’s view of things. They will start to like team games. They become increasingly independent of their parents, but still need their comfort and security. They are able to resolve conflicts verbally and know when to seek adult help. 9 – 12 years Physical Development They will continue to grow taller and bigger. Girls are generally speaking 2 years ahead of boys in physical maturity. Girls will grow buds of breasts at ten or eleven, their hips will take shape and they may begin to menstruate at eleven or twelve. Children have an increase in body strength and hand dexterity. They have improved coordination and reaction time. Some boys may experience masturbation and nocturnal emissions. The remainder of their adult teeth will develop. Adult type tools can be used, such as saws and hammers. Children can construct simple structures and sew basic garments. Their handwriting becomes more fluid, automatic and less of an effort. Their writing speed also increases. Communication and Intellectual development They have an increase in abstract thinking- children would be able to think about what could happen rather than what did happen. Children can fantasize and speculate. Children at this age are more likely to question your rules and values rather than follow them and things may often seem unfair to them. They will become more project and goal oriented and might develop special interests in collections or hobbies. They will enjoy games with more complex rules. They are learning to plan ahead and evaluate what they do. Their comprehension and use of language becomes more sophisticated. They often share their opinions. They may pick up on words that peers use. Children could begin to learn new language without understanding the meaning. Likes to write stories, letters, reads well and enjoys using the telephone. Social, emotional and behavioural development Children at this age will like being a member of a club and will enjoy rituals, rules, secrets, codes, and made-up languages. They may form more complex friendships and might prefer spending more time with friends than with parents. By eleven children is much more interested in, and affected by, the norms of their friends. They start to have better control over anger. They might experience more peer pressure. Children will become more interested in the opposite gender. They are able to resolve social problems like fights with friends and siblings. They also have the ability to understand others people’s point of view. 12 – 16 Years Physical Development Adolescence is a time of rapid growth in height and weight. The changes in children’s bodies at this age are rapid and can be dramatic. Boys grow body hair, their voices deepen, and their testicles increase in size. They experience a massive boost of testosterone. Boy’s testes begin to enlarge, their muscles will fill out and strength increases dramatically. Girls may grow body hair and breasts and start menstruating. Many will mature radically in their facial features. Acne may appear as oil glands become more active. Their appetite and need for sleep will increase. Their sexual desires and fantasies also increase. Communication and Intellectual development Adolescents are able to think more abstractly. They are better able to express feelings through talking. They have a very strong sense of right and wrong. Between 13 and 16 children’s ways of thinking about themselves, others, and the world shift to a much more adult level. Arguing and reasoning skills improve. They learn to use deductive reasoning and make educated guesses. They will be able to construct hypothetical solutions to a problem and evaluate which is best. Their focus on the future develops and they learn to recognize that current actions can have an effect on the future. They will start to set personal goals. Adolescent’s decision-making skills improve; they begin to independently differentiate right from wrong and develop a conscience. They also learn to distinguish fact from opinion. Social, emotional and behavioural development Adolescents have increased concern about body image, looks, and clothes. They are self-absorbed. They are more interested in and influenced by their peer group. They become less affectionate, sometimes moody, rude or short-tempered. They may experiment with risky behaviours and adult roles. Conflict is common as they begin to reject adult values and ideas. Close friendships develop, particularly for girls. Some children might lose self-confidence or self-esteem during this time. 16 – 19 Years Physical Development 5% of children have reached their adult height. Many of the major physical changes have occurred. There is advanced growth of secondary sex characteristics such as facial and body hair in boys, and breasts in girls. They will continue brain development until late adolescence. The likelihood of sexual desire and perhaps activity is increased. Communication and Intellectual d evelopment At this age they might have an increased concern for the future and how to integrate knowledge and decision making. They have well defined work habits and greater capacity for setting goals. Their organizational skills improve. They tend to be self-regulated and self-absorbed. Teens are better able to solve problems, think about their future, appreciate opinions of others and understand the long-term effects of their decisions. However, teens tend to use these skills inconsistently; as a result, they sometimes do things without thinking first. Social, emotional and behavioural development They are moving towards independence and have a firmer sense of self. They have developed sense of humour. They have the ability to compromise and make important decisions. Teens may experiment in risk taking behaviour. Relationships with parents can either be very friendly or can deteriorate. The behaviour of teens is very varied; they may enjoy activities with the opposite sex or they may completely avoid the opposite sex. Teenagers may appear angry, impulsive, lonely, confused, self-centred, stubborn and moody. They may struggle with conflicting feelings. Teens want control over more aspects of their life. Use of alcohol, tobacco, and other drugs is more common now than before. They may have strong sexual urges, and many become sexually active. Teens become more aware of their sexual orientation (homosexual, heterosexual, bisexual).

New SAT Conversion Chart Old 2400 to New 1600 (Official)

New SAT Conversion Chart Old 2400 to New 1600 (Official) SAT / ACT Prep Online Guides and Tips In March 2016, the SAT underwent a massive redesign, part of which included a change to its scoring system: it shifted from a 2400-point scale to a 1600-point scale. But how do you compare a new SAT score with one on the old SAT 2400 scale? What scores are colleges looking for since some still don't have data on the new SAT? The official new SAT to old SAT conversion charts below offer the most accurate score conversions from one SAT to the other. If you need to convert your new SAT score to an old SAT score, or vice versa, simply use our handy conversion tool below to find your score. After you get your SAT conversion, keep reading- I tell you why it's easier to get a higher SAT score than before due to the new SAT scoring advantage (the new SAT score is higher in certain score regions!). Disappointed with your scores? Want to improve your SAT score by 160 points? We've written a guide about the top 5 strategies you must be using to have a shot at improving your score. Download it for free now: Old 2400 SAT to New 1600 SAT Conversion Tool If you've taken both the new SAT and old SAT and want to know which test you've done better on, this tool will do that automatically for you. Enter your old SAT scores on the LEFT to get your new SAT scores on the RIGHT. Enter your old 2400 SAT here: Old Math (max 800) Old Reading (max 800) Old Writing (max 800) Get new 1600 SAT scores here: Old Total SAT (max 2400) New Math (max 800) New Reading + Writing (max 800) New Total SAT (max 1600) // 800) { $(this).val(800); } var m = parseInt($("#in_old_math").val()); var w = parseInt($("#in_old_writing").val()); var c = parseInt($("#in_old_critical").val()); var old_r = w + c var old_total = m + c + w; var new_m; var new_r; var new_total; if (isNaN(m)) { $("#out_new_math").val(''); } else { switch (m) { case 200:new_m = 200;break;case 210:new_m = 220;break;case 220:new_m = 230;break;case 230:new_m = 250;break;case 240:new_m = 260;break;case 250:new_m = 280;break;case 260:new_m = 300;break;case 270:new_m = 310;break;case 280:new_m = 330;break;case 290:new_m = 340;break;case 300:new_m = 350;break;case 310:new_m = 360;break;case 320:new_m = 360;break;case 330:new_m = 370;break;case 340:new_m = 380;break;case 350:new_m = 390;break;case 360:new_m = 400;break;case 370:new_m = 410;break;case 380:new_m = 420;break;case 390:new_m = 430;break;case 400:new_m = 440;break;case 410:new_m = 450;break;case 420:new_m = 460;break;case 430:new_m = 470;break;case 440:new_m = 480;break;case 450:new_m = 490;break;case 460:new_m = 500;break;case 470:new_m = 510;break;case 480:new_m = 510;break;case 490:new_m = 520;break;case 500:new_m = 530;break;case 510:new_m = 540;break;case 520:new_m = 550;break;case 530:new_m = 560;break;case 540:new_m = 570;break;case 550:new_m = 570;break;ca se 560:new_m = 580;break;case 570:new_m = 590;break;case 580:new_m = 600;break;case 590:new_m = 610;break;case 600:new_m = 620;break;case 610:new_m = 630;break;case 620:new_m = 640;break;case 630:new_m = 650;break;case 640:new_m = 660;break;case 650:new_m = 670;break;case 660:new_m = 690;break;case 670:new_m = 700;break;case 680:new_m = 710;break;case 690:new_m = 720;break;case 700:new_m = 730;break;case 710:new_m = 740;break;case 720:new_m = 750;break;case 730:new_m = 760;break;case 740:new_m = 760;break;case 750:new_m = 770;break;case 760:new_m = 780;break;case 770:new_m = 780;break;case 780:new_m = 790;break;case 790:new_m = 800;break;case 800:new_m = 800;break; } $("#out_new_math").val(new_m); } if (isNaN(old_r)) { $("#out_new_verbal").val(''); } else { switch (old_r) { case 400:new_r = 200;break;case 410:new_r = 210;break;case 420:new_r = 220;break;case 430:new_r = 230;break;case 440:new_r = 240;break;case 450:new_r = 260;break;case 460:new_r = 270;break;case 470:new_r = 280;break;case 480:new_r = 290;break;case 490:new_r = 300;break;case 500:new_r = 310;break;case 510:new_r = 310;break;case 520:new_r = 320;break;case 530:new_r = 320;break;case 540:new_r = 330;break;case 550:new_r = 330;break;case 560:new_r = 330;break;case 570:new_r = 340;break;case 580:new_r = 340;break;case 590:new_r = 350;break;case 600:new_r = 350;break;case 610:new_r = 360;break;case 620:new_r = 360;break;case 630:new_r = 360;break;case 640:new_r = 370;break;case 650:new_r = 370;break;case 660:new_r = 380;break;case 670:new_r = 380;break;case 680:new_r = 390;break;case 690:new_r = 390;break;case 700:new_r = 400;break;case 710:new_r = 400;break;case 720:new_r = 410;break;case 730:new_r = 410;break;case 740:new_r = 420;break;case 750:new_r = 420;break;ca se 760:new_r = 430;break;case 770:new_r = 430;break;case 780:new_r = 440;break;case 790:new_r = 440;break;case 800:new_r = 450;break;case 810:new_r = 450;break;case 820:new_r = 460;break;case 830:new_r = 460;break;case 840:new_r = 470;break;case 850:new_r = 480;break;case 860:new_r = 480;break;case 870:new_r = 490;break;case 880:new_r = 490;break;case 890:new_r = 500;break;case 900:new_r = 500;break;case 910:new_r = 510;break;case 920:new_r = 510;break;case 930:new_r = 520;break;case 940:new_r = 530;break;case 950:new_r = 530;break;case 960:new_r = 540;break;case 970:new_r = 540;break;case 980:new_r = 550;break;case 990:new_r = 550;break;case 1000:new_r = 560;break;case 1010:new_r = 560;break;case 1020:new_r = 570;break;case 1030:new_r = 570;break;case 1040:new_r = 580;break;case 1050:new_r = 580;break;case 1060:new_r = 590;break;case 1070:new_r = 590;break;case 1080:new_r = 600;break;case 1090:new_r = 600;break;case 1100:new_r = 610;break;case 1110:new_r = 610;break;case 1120:new_r = 620;break;case 1130:new_r = 620;break;case 1140:new_r = 630;break;case 1150:new_r = 630;break;case 1160:new_r = 640;break;case 1170:new_r = 640;break;case 1180:new_r = 650;break;case 1190:new_r = 650;break;case 1200:new_r = 650;break;case 1210:new_r = 660;break;case 1220:new_r = 660;break;case 1230:new_r = 670;break;case 1240:new_r = 670;break;case 1250:new_r = 680;break;case 1260:new_r = 680;break;case 1270:new_r = 680;break;case 1280:new_r = 690;break;case 1290:new_r = 690;break;case 1300:new_r = 700;break;case 1310:new_r = 700;break;case 1320:new_r = 700;break;case 1330:new_r = 710;break;case 1340:new_r = 710;break;case 1350:new_r = 710;break;case 1360:new_r = 720;break;case 1370:new_r = 720;break;case 1380:new_r = 730;break;case 1390:new_r = 730;break;case 1400:new_r = 730;break;case 1410:new_r = 740;break;case 1420:new_r = 740;break;case 1430:new_r = 740;break;case 1440:new_r = 750;break;case 1450:new_r = 750;break;case 1460:new_r = 750;break;case 1470:new_r = 760;break;case 1480:new_r = 760;break;case 1490:new_r = 760;break;case 1500:new_r = 770;break;case 1510:new_r = 770;break;case 1520:new_r = 770;break;case 1530:new_r = 780;break;case 1540:new_r = 780;break;case 1550:new_r = 780;break;case 1560:new_r = 790;break;case 1570:new_r = 790;break;case 1580:new_r = 800;break;case 1590:new_r = 800;break;case 1600:new_r = 800;break; } $("#out_new_verbal").val(new_r); } if (!isNaN(old_total)) { $("#out_old_total").val(old_total); switch (old_total) {case 600: new_total = 400; break; case 610: new_total = 410; break; case 620: new_total = 420; break; case 630: new_total = 430; break; case 640: new_total = 440; break; case 650: new_total = 450; break; case 660: new_total = 460; break; case 670: new_total = 470; break; case 680: new_total = 480; break; case 690: new_total = 490; break; case 700: new_total = 500; break; case 710: new_total = 510; break; case 720: new_total = 520; break; case 730: new_total = 530; break; case 740: new_total = 540; break; case 750: new_total = 550; break; case 760: new_total = 560; break; case 770: new_total = 580; break; case 780: new_total = 590; break; case 790: new_total = 600; break; case 800: new_total = 610; break; case 810: new_total = 620; break; case 820: new_total = 630; break; case 830: new_total = 640; break; case 840: new_total = 650; break; case 850: new_total = 660; break; case 860: new_total = 670; break; case 870: new_total = 680; break; case 880: new_total = 690; break; case 890: new_total = 690; break; case 900: new_total = 700; break; case 910: new_total = 710; break; case 920: new_total = 710; break; case 930: new_total = 720; break; case 940: new_total = 730; break; case 950: new_total = 730; break; case 960: new_total = 740; break; case 970: new_total = 740; break; case 980: new_total = 750; break; case 990: new_total = 760; break; case 1000: new_total = 760; break; case 1010: new_total = 770; break; case 1020: new_total = 780; break; case 1030: new_total = 780; break; case 1040: new_total = 790; break; case 1050: new_total = 800; break; case 1060: new_total = 800; break; case 1070: new_total = 810; break; case 1080: new_total = 810; break; case 1090: new_total = 820; break; case 1100: new_total = 830; break; case 1110: new_total = 830; break; case 1120: new_total = 840; break; case 1130: new_total = 850; break; case 1140: new_total = 850; break; case 1150: new_total = 860; break; case 1160: new_total = 870; break; case 1170: new_ total = 870; break; case 1180: new_total = 880; break; case 1190: new_total = 890; break; case 1200: new_total = 890; break; case 1210: new_total = 900; break; case 1220: new_total = 910; break; case 1230: new_total = 910; break; case 1240: new_total = 920; break; case 1250: new_total = 930; break; case 1260: new_total = 930; break; case 1270: new_total = 940; break; case 1280: new_total = 950; break; case 1290: new_total = 950; break; case 1300: new_total = 960; break; case 1310: new_total = 970; break; case 1320: new_total = 980; break; case 1330: new_total = 980; break; case 1340: new_total = 990; break; case 1350: new_total = 1000; break; case 1360: new_total = 1000; break; case 1370: new_total = 1010; break; case 1380: new_total = 1020; break; case 1390: new_total = 1020; break; case 1400: new_total = 1030; break; case 1410: new_total = 1030; break; case 1420: new_total = 1040; break; case 1430: new_total = 1050; break; case 1440: new_total = 1050; break; case 1450: new_total = 1060; break; case 1460: new_total = 1070; break; case 1470: new_total = 1070; break; case 1480: new_total = 1080; break; case 1490: new_total = 1090; break; case 1500: new_total = 1090; break; case 1510: new_total = 1100; break; case 1520: new_total = 1110; break; case 1530: new_total = 1110; break; case 1540: new_total = 1120; break; case 1550: new_total = 1120; break; case 1560: new_total = 1130; break; case 1570: new_total = 1140; break; case 1580: new_total = 1140; break; case 1590: new_total = 1150; break; case 1600: new_total = 1160; break; case 1610: new_total = 1160; break; case 1620: new_total = 1170; break; case 1630: new_total = 1180; break; case 1640: new_total = 1180; break; case 1650: new_total = 1190; break; case 1660: new_total = 1200; break; case 1670: new_total = 1200; break; case 1680: new_total = 1210; break; case 1690: new_total = 1210; break; case 1700: new_total = 1220; break; case 1710: new_total = 1230; break; case 1720: new_total = 1230; break; case 1730: new_total = 1240; break; case 1740: new_total = 1250; break; case 1750: new_total = 1250; break; case 1760: new_total = 1260; break; case 1770: new_total = 1270; break; case 1780: new_total = 1270; break; case 1790: new_total = 1280; break; case 1800: new_total = 1290; break; case 1810: new_total = 1290; break; case 1820: new_total = 1300; break; case 1830: new_total = 1300; break; case 1840: new_total = 1310; break; case 1850: new_total = 1320; break; case 1860: new_total = 1320; break; case 1870: new_total = 1330; break; case 1880: new_total = 1340; break; case 1890: new_total = 1340; break; case 1900: new_total = 1350; break; case 1910: new_total = 1350; break; case 1920: new_total = 1360; break; case 1930: new_total = 1370; break; case 1940: new_total = 1370; break; case 1950: new_total = 1380; break; case 1960: new_total = 1380; break; case 1970: new_total = 1390; break; case 1980: new_total = 1400; break; case 1990: new_total = 1400; break; case 2000: new_total = 1410; break; case 2010: new_total = 1410; break; case 2020: new_total = 1420; break; case 2030: new_total = 1430; break; case 2040: new_total = 1430; break; case 2050: new_total = 1440; break; case 2060: new_total = 1440; break; case 2070: new_total = 1450; break; case 2080: new_total = 1450; break; case 2090: new_total = 1460; break; case 2100: new_total = 1470; break; case 2110: new_total = 1470; break; case 2120: new_total = 1480; break; case 2130: new_total = 1480; break; case 2140: new_total = 1490; break; case 2150: new_total = 1490; break; case 2160: new_total = 1500; break; case 2170: new_total = 1500; break; case 2180: new_total = 1510; break; case 2190: new_total = 1510; break; case 2200: new_total = 1510; break; case 2210: new_total = 1520; break; case 2220: new_total = 1520; break; case 2230: new_total = 1530; break; case 2240: new_total = 1530; break; case 2250: new_total = 1540; break; case 2260: new_total = 1540; break; case 2270: new_total = 1550; break; case 2280: new_total = 15 50; break; case 2290: new_total = 1550; break; case 2300: new_total = 1560; break; case 2310: new_total = 1560; break; case 2320: new_total = 1570; break; case 2330: new_total = 1570; break; case 2340: new_total = 1580; break; case 2350: new_total = 1580; break; case 2360: new_total = 1590; break; case 2370: new_total = 1590; break; case 2380: new_total = 1590; break; case 2390: new_total = 1600; break; case 2400: new_total = 1600; break; } $("#out_new_total").val(new_total); var old_to_new_error_payload = "Why don't the section scores add up to the total score? Summing ".concat(new_m.toString()," and ",new_r.toString()," gives ",(new_m+new_r).toString(),", not ",new_total.toString(),"! The reason is that the College Board has one conversion table for individual sections (like Math to Math), and another for total to total conversion. They try to make each individual conversion as accurate as possible, which leads to some inconsistencies. You can read more here.Long story short? Don't worry about it. These are only meant to be estimates anyway. The two totals are ",Math.abs(new_total-new_r-new_m).toString()," points apart - just split the difference and use that value for what you need."); if (new_total != (new_r + new_m)) { document.getElementById("old_to_new_error").innerHTML = old_to_new_error_payload; } else { document.getElementById("old_to_new_error").innerHTML = ""; } } else { $("#out_old_total").val(''); $("#out_new_total").val(''); document.getElementById("old_to_new_error").innerHTML = ""; } }); }); // ]]> New 1600 SAT to Old 2400 SAT Conversion Tool Alternatively, if you want to input your new SAT scores and get old SAT scores, here's how to do it: Enter your new 1600 SAT here: New Math (max 800) New Reading + Writing (max 800) Get old 2400 SAT scores here: New Total SAT (max 1600) Old Math (max 800) Old Reading + Writing (max 1600) Old Total SAT (max 2400) // 800) { $(this).val(800); } var new_m = parseInt($("#in_new_math").val()); var new_v = parseInt($("#in_new_verbal").val()); new_total = new_m + new_v var old_m; var old_v; var old_total; if (isNaN(new_m)) { $("#out_old_math").val(''); } else { switch (new_m) { case 200: old_m = 200; break; case 210: old_m = 200; break; case 220: old_m = 210; break; case 230: old_m = 220; break; case 240: old_m = 220; break; case 250: old_m = 230; break; case 260: old_m = 240; break; case 270: old_m = 240; break; case 280: old_m = 250; break; case 290: old_m = 260; break; case 300: old_m = 260; break; case 310: old_m = 270; break; case 320: old_m = 280; break; case 330: old_m = 280; break; case 340: old_m = 290; break; case 350: old_m = 300; break; case 360: old_m = 310; break; case 370: old_m = 330; break; case 380: old_m = 340; break; case 390: old_m = 350; break; case 400: old_m = 360; break; case 410: old_m = 370; break; case 420: old_m = 380; break; case 430: old_m = 390; break; case 440: old_m = 400; break; case 450: old_m = 410; break; case 460: old_m = 420; break; case 470: old_m = 430; break; case 480: old_m = 440; break; case 490: old_m = 450; break; case 500: old_m = 460; break; case 510: old_m = 470; break; case 520: old_ m = 490; break; case 530: old_m = 500; break; case 540: old_m = 510; break; case 550: old_m = 520; break; case 560: old_m = 530; break; case 570: old_m = 550; break; case 580: old_m = 560; break; case 590: old_m = 570; break; case 600: old_m = 580; break; case 610: old_m = 590; break; case 620: old_m = 600; break; case 630: old_m = 610; break; case 640: old_m = 620; break; case 650: old_m = 630; break; case 660: old_m = 640; break; case 670: old_m = 650; break; case 680: old_m = 650; break; case 690: old_m = 660; break; case 700: old_m = 670; break; case 710: old_m = 680; break; case 720: old_m = 690; break; case 730: old_m = 700; break; case 740: old_m = 710; break; case 750: old_m = 720; break; case 760: old_m = 740; break; case 770: old_m = 750; break; case 780: old_m = 760; break; case 790: old_m = 780; break; case 800: old_m = 800; break; } $("#out_old_math").val(old_m); } if (isNaN(new_v)) { $("#out_old_critical").val(''); } else { switch (new_v) { case 200:old_v = 400;break;case 210:old_v = 410;break;case 220:old_v = 420;break;case 230:old_v = 430;break;case 240:old_v = 440;break;case 250:old_v = 440;break;case 260:old_v = 450;break;case 270:old_v = 460;break;case 280:old_v = 470;break;case 290:old_v = 480;break;case 300:old_v = 490;break;case 310:old_v = 500;break;case 320:old_v = 520;break;case 330:old_v = 550;break;case 340:old_v = 570;break;case 350:old_v = 600;break;case 360:old_v = 620;break;case 370:old_v = 640;break;case 380:old_v = 660;break;case 390:old_v = 690;break;case 400:old_v = 710;break;case 410:old_v = 730;break;case 420:old_v = 750;break;case 430:old_v = 770;break;case 440:old_v = 790;break;case 450:old_v = 800;break;case 460:old_v = 820;break;case 470:old_v = 840;break;case 480:old_v = 860;break;case 490:old_v = 880;break;case 500:old_v = 890;break;case 510:old_v = 910;break;case 520:old_v = 930;break;case 530:old_v = 950;break;case 540:old_v = 970;break;case 550:old_v = 990;break;ca se 560:old_v = 1010;break;case 570:old_v = 1020;break;case 580:old_v = 1040;break;case 590:old_v = 1060;break;case 600:old_v = 1080;break;case 610:old_v = 1100;break;case 620:old_v = 1120;break;case 630:old_v = 1150;break;case 640:old_v = 1170;break;case 650:old_v = 1190;break;case 660:old_v = 1210;break;case 670:old_v = 1240;break;case 680:old_v = 1260;break;case 690:old_v = 1290;break;case 700:old_v = 1310;break;case 710:old_v = 1340;break;case 720:old_v = 1370;break;case 730:old_v = 1390;break;case 740:old_v = 1420;break;case 750:old_v = 1450;break;case 760:old_v = 1480;break;case 770:old_v = 1510;break;case 780:old_v = 1540;break;case 790:old_v = 1560;break;case 800:old_v = 1590;break; } $("#out_old_critical").val(old_v); } if (!isNaN(new_total)) { $("#out_new_total2").val(new_total); switch(new_total) { case 400: old_total = 600; break;case 410: old_total = 610; break;case 420: old_total = 620; break;case 430: old_total = 630; break;case 440: old_total = 640; break;case 450: old_total = 650; break;case 460: old_total = 660; break;case 470: old_total = 670; break;case 480: old_total = 680; break;case 490: old_total = 690; break;case 500: old_total = 700; break;case 510: old_total = 710; break;case 520: old_total = 720; break;case 530: old_total = 730; break;case 540: old_total = 730; break;case 550: old_total = 740; break;case 560: old_total = 750; break;case 570: old_total = 760; break;case 580: old_total = 770; break;case 590: old_total = 780; break;case 600: old_total = 790; break;case 610: old_total = 800; break;case 620: old_total = 810; break;case 630: old_total = 820; break;case 640: old_total = 830; break;case 650: old_total = 840; break;case 660: old_total = 850; break;case 670: old_total = 860; break;case 680: old_total = 870; break;case 690: old_total = 880; break;ca se 700: old_total = 900; break;case 710: old_total = 910; break;case 720: old_total = 930; break;case 730: old_total = 950; break;case 740: old_total = 960; break;case 750: old_total = 980; break;case 760: old_total = 990; break;case 770: old_total = 1010; break;case 780: old_total = 1030; break;case 790: old_total = 1040; break;case 800: old_total = 1060; break;case 810: old_total = 1070; break;case 820: old_total = 1090; break;case 830: old_total = 1110; break;case 840: old_total = 1120; break;case 850: old_total = 1140; break;case 860: old_total = 1150; break;case 870: old_total = 1170; break;case 880: old_total = 1180; break;case 890: old_total = 1200; break;case 900: old_total = 1210; break;case 910: old_total = 1220; break;case 920: old_total = 1240; break;case 930: old_total = 1250; break;case 940: old_total = 1270; break;case 950: old_total = 1280; break;case 960: old_total = 1300; break;case 970: old_total = 1310; break;case 980: old_total = 1330; break;case 990: old_total = 1340; break;case 1000: old_total = 1360; break;case 1010: old_total = 1370; break;case 1020: old_total = 1390; break;case 1030: old_total = 1400; break;case 1040: old_total = 1420; break;case 1050: old_total = 1430; break;case 1060: old_total = 1450; break;case 1070: old_total = 1460; break;case 1080: old_total = 1480; break;case 1090: old_total = 1490; break;case 1100: old_total = 1510; break;case 1110: old_total = 1530; break;case 1120: old_total = 1540; break;case 1130: old_total = 1560; break;case 1140: old_total = 1570; break;case 1150: old_total = 1590; break;case 1160: old_total = 1610; break;case 1170: old_total = 1620; break;case 1180: old_total = 1640; break;case 1190: old_total = 1650; break;case 1200: old_total = 1670; break;case 1210: old_total = 1680; break;case 1220: old_total = 1700; break;case 1230: old_total = 1710; break;case 1240: old_total = 1730; break;case 1250: old_total = 1750; break;case 1260: old_total = 1760; break;case 1270: old_total = 1780; break;cas e 1280: old_total = 1790; break;case 1290: old_total = 1810; break;case 1300: old_total = 1820; break;case 1310: old_total = 1840; break;case 1320: old_total = 1850; break;case 1330: old_total = 1870; break;case 1340: old_total = 1880; break;case 1350: old_total = 1900; break;case 1360: old_total = 1920; break;case 1370: old_total = 1930; break;case 1380: old_total = 1950; break;case 1390: old_total = 1970; break;case 1400: old_total = 1990; break;case 1410: old_total = 2000; break;case 1420: old_total = 2020; break;case 1430: old_total = 2040; break;case 1440: old_total = 2060; break;case 1450: old_total = 2080; break;case 1460: old_total = 2090; break;case 1470: old_total = 2110; break;case 1480: old_total = 2130; break;case 1490: old_total = 2150; break;case 1500: old_total = 2170; break;case 1510: old_total = 2190; break;case 1520: old_total = 2210; break;case 1530: old_total = 2230; break;case 1540: old_total = 2260; break;case 1550: old_total = 2280; break;case 1560: old_total = 2300; break;case 1570: old_total = 2330; break;case 1580: old_total = 2350; break;case 1590: old_total = 2370; break;case 1600: old_total = 2390; break; } $("#out_old_total2").val(old_total); var new_to_old_error_payload = "Why don't the old section scores add up to the old total score? Summing ".concat(old_m.toString()," and ",old_v.toString()," gives ",(old_m+old_v).toString(),", not ",old_total.toString(),"! The reason is that the College Board has one conversion table for individual sections (like Math to Math), and another for total to total conversion. They try to make each individual conversion as accurate as possible, which leads to some inconsistencies. You can read more here.Long story short? Don't worry about it. These are only meant to be estimates anyway. The two totals are ",Math.abs(old_total-old_m-old_v).toString()," points apart - just split the difference and use that value for what you need."); if (old_total != (old_v + old_m)) { document.getElementById("new_to_old_error").innerHTML = new_to_old_error_payload; } else { document.getElementById("new_to_old_error").innerHTML = ""; } } else { $("#out_old_total2").val(''); $("#out_new_total2").val(''); document.getElementById("new_to_old_error").innerHTML = ""; } }); }); // ]]> Official Old SAT to New SAT Conversion Charts We created our conversion tools above using the College Board's official SAT conversion charts. Now, we give you actual conversion tables so that you can see more clearly how new SAT scores match up with old SAT scores (and vice versa). Before you use these tables, know that the most accurate conversion method is to split up the score conversion section by section. In other words, don't just use the College Board's total composite conversion chart (from 2400 to 1600); these can be inaccurate as they ignore the fact that individual sections convert scores differently. For example, if you're converting from an old SAT score to a new SAT score, you'd do the following: Get your old SAT Math score (out of 800) and convert it to a new SAT Math score (out of 800). Get your old Reading + Writing score (out of 1600) and convert it to a new SAT Reading + Writing score (out of 800). Old SAT Math to New SAT Math Conversion Table Math is straightforward because both the new SAT and old SAT Math sections are out of 800. Old SAT Math New SAT Math Old SAT Math New SAT Math Old SAT Math New SAT Math 800 800 600 620 400 440 790 800 590 610 390 430 780 790 580 600 380 420 770 780 570 590 370 410 760 780 560 580 360 400 750 770 550 570 350 390 740 760 540 570 340 380 730 760 530 560 330 370 720 750 520 550 320 360 710 740 510 540 310 360 700 730 500 530 300 350 690 720 490 520 290 340 680 710 480 510 280 330 670 700 470 510 270 310 660 690 460 500 260 300 650 670 450 490 250 280 640 660 440 480 240 260 630 650 430 470 230 250 620 640 420 460 220 230 610 630 410 450 210 220 200 200 Old SAT Reading + Writing to New SAT Reading + Writing Conversion Table On the old SAT, Reading and Writing were separate sections, each out of 800. On the new SAT, however, these two sections are combined for a total Evidence-Based Reading and Writing (EBRW) score out of 800. In this table, we added the old SAT Reading and Writing sections together to get a single Reading and Writing score out of 1600. Old R+W New R+W Old R+W New R+W Old R+W New R+W 1600 800 1200 650 800 450 1590 800 1190 650 790 440 1580 800 1180 650 780 440 1570 790 1170 640 770 430 1560 790 1160 640 760 430 1550 780 1150 630 750 420 1540 780 1140 630 740 420 1530 780 1130 620 730 410 1520 770 1120 620 720 410 1510 770 1110 610 710 400 1500 770 1100 610 700 400 1490 760 1090 600 690 390 1480 760 1080 600 680 390 1470 760 1070 590 670 380 1460 750 1060 590 660 380 1450 750 1050 580 650 370 1440 750 1040 580 640 370 1430 740 1030 570 630 360 1420 740 1020 570 620 360 1410 740 1010 560 610 360 1400 730 1000 560 600 350 1390 730 990 550 590 350 1380 730 980 550 580 340 1370 720 970 540 570 340 1360 720 960 540 560 330 1350 710 950 530 550 330 1340 710 940 530 540 330 1330 710 930 520 530 320 1320 700 920 510 520 320 1310 700 910 510 510 310 1300 700 900 500 500 310 1290 690 890 500 490 300 1280 690 880 490 480 290 1270 680 870 490 470 280 1260 680 860 480 460 270 1250 680 850 480 450 260 1240 670 840 470 440 240 1230 670 830 460 430 230 1220 660 820 460 420 220 1210 660 810 450 410 210 400 200 Using the two section tables above, you can convert any scores from the new SAT to the old SAT, and vice versa. You can then add up the scores you find to get your composite score. Want to get serious about improving your SAT score? We have the leading online SAT prep program that will raise your score by 160+ points, guaranteed. Exclusive to our program, we have an expert SAT instructor grade each of your SAT essays and give you customized feedback on how to improve your score. This can mean an instant jump of 80 points on the Writing section alone. Check out our 5-day free trial and sign up for free: Composite New SAT to Old SAT Conversion Chart This SAT conversion table is the one I recommend not using since it goes from composite score to composite score. This manner of translating scores is less accurate than splitting up your composite score section by section as recommended above. For example, here are two scenarios of a student with an 1800 score on the old SAT. If you just use the table below, you'd get 1290 as your new total SAT score. But this is just an approximation- if you use your section scores, you end up with entirely different conversions! Scenario 1 Old SAT Math: 800 Reading: 600 Writing: 400 Composite: 1800/2400 New SAT New Math: 800 New Reading + Writing: 560 New Composite: 1360/1600 Scenario 2 Old SAT Math: 600 Reading: 600 Writing: 600 Composite: 1800/2400 New SAT New Math: 620 New Reading + Writing: 650 New Composite: 1270/1600 Notice how in both scenarios, the old composite score adds up to 1800, but the new composite score varies by nearly 100 points. Once again, if you were to use the table below, you'd get 1290 for both, but this conversion is clearly less accurate since the two scenarios above yield wildly different scores when converting by section. Regardless, here's the official SAT composite score conversion chart for your reference: New SAT Old SAT New SAT Old SAT New SAT Old SAT 1600 2390 1200 1670 800 1060 1590 2370 1190 1650 790 1040 1580 2350 1180 1640 780 1030 1570 2330 1170 1620 770 1010 1560 2300 1160 1610 760 990 1550 2280 1150 1590 750 980 1540 2260 1140 1570 740 960 1530 2230 1130 1560 730 950 1520 2210 1120 1540 720 930 1510 2190 1110 1530 710 910 1500 2170 1100 1510 700 900 1490 2150 1090 1490 690 880 1480 2130 1080 1480 680 870 1470 2110 1070 1460 670 860 1460 2090 1060 1450 660 850 1450 2080 1050 1430 650 840 1440 2060 1040 1420 640 830 1430 2040 1030 1400 630 820 1420 2020 1020 1390 620 810 1410 2000 1010 1370 610 800 1400 1990 1000 1360 600 790 1390 1970 990 1340 590 780 1380 1950 980 1330 580 770 1370 1930 970 1310 570 760 1360 1920 960 1300 560 750 1350 1900 950 1280 550 740 1340 1880 940 1270 540 730 1330 1870 930 1250 530 730 1320 1850 920 1240 520 720 1310 1840 910 1220 510 710 1300 1820 900 1210 500 700 1290 1810 890 1200 490 690 1280 1790 880 1180 480 680 1270 1780 870 1170 470 670 1260 1760 860 1150 460 660 1250 1750 850 1140 450 650 1240 1730 840 1120 440 640 1230 1710 830 1110 430 630 1220 1700 820 1090 420 620 1210 1680 810 1070 410 610 400 600 What Does the Conversion Chart Say About the New SAT? The official conversion tables show that the new SAT has higher scores than expected across the entire score range. For a full explanation, read our guide on the new SAT scoring advantage. That said, I'll summarize the main points below. Without the College Board's concordance table, you might imagine that you could just multiply the old SAT score by 2/3 to get your new SAT score. For example, 2400 * 2/3 = 1600. Or, 1800 * 2/3 = 1200. In fact, new SAT scores are much higher than this simple formula would predict. An 1800 on the old SAT actually translates to 1280- that's 80 points higher than 1200. Likewise, a 1500 on the old SAT translates to 1100, or 100 points higher than 1000. This also reflects section by section. A 700 on the old SAT Math section is equivalent to a 730 on the new SAT Math section, while a 500 on the old SAT is equivalent to a 530 on the new SAT. What this means is that for the same performance on Math, you get a higher score on the new SAT than you would have on the old SAT. So what does this mean for you? Some people worry that this means grade inflation is happening, and that scores are creeping up. But I'm not personally worried about it, and you don't need to be either. The College Board will always grade the SAT in such a way that top students can be distinguished from average students, and average students from below-average students. What really matters is your score percentile, and the score that colleges believe is good. If everyone's SAT score goes up, then colleges will require higher scores for admission as well. This doesn't mean anything about how hard it is to get that score- the difficulty is likely going to stay similar. For now, just focus on studying for the SAT and getting the highest score possible! What’s Next? Curious about how the new SAT scoring system benefits you? Read our comprehensive guide to the new SAT scoring advantage to learn how the current version of the SAT gives you optically higher scores over a range of scores. Want to get a perfect SAT score? Then check out our guide on getting a 1600 SAT score, written by a perfect SAT scorer. What's a good SAT score for you? The answer to this question depends on your goals. Learn how to calculate a great SAT target score in our in-depth guide. Disappointed with your scores? Want to improve your SAT score by 160 points? We've written a guide about the top 5 strategies you must be using to have a shot at improving your score. Download it for free now:

Orientalism after World War Essay Example | Topics and Well Written Essays - 500 words - 23

Orientalism after World War - Essay Example The principle of orientalism that is focused to in this aspect mainly deals not specifically with orientalism and orient but mainly with the inner constancy of orientalism and the ideas that are about Orient. There are three aspects of contemporary reality that are brought out with the focus. The first aspect is on the distinction between our political knowledge. The formal designation in this aspect is that a humanist title is that which indicates the humanities in the field but not with anything political in the field. When orientalism is considered in this aspect, it is a cultural issue but not a political issue (Macfie, 109). Orient follows certain distinct and intellectual knowledgeable lines. Therefore, orientalism can be considered not a mere political matter that is reflected passive by scholarship or culture or institutions nor is it a representative and sensitive of some evil scheme to hold on the oriental world. It is the distribution of geographical awareness into economic, aesthetic, sociological and philological texts (Macfie, 198). It is considered an elaboration of basic geographical concepts and all the interests in the field. The book brings out different poems in the period between 1848 and 1984. The first poem of the book is on Adios Carnage. The poem brings out the misinterpretation of the speeches, words and looks that is between the person and the neighbor that he passes sweeping and talks to. The mood of the poem is that which shows sympathy. The second poem is on the rapture of the deep. The poem talks about the deep secrets that the persona had with the knowledge that there was none who was able to know but only him. The situation turns as he is exposed to all the thought to anyone. The mood in which the persona speaks is that of sorrow as he is not happy on the secrets that were exposed. His third poem in the collection is Shabine leaves the city. It talks about the  actions of the aliens after there was colonization in the countries.  

Social security and Medicare reform Policy recommendations Essay

Social security and Medicare reform Policy recommendations - Essay Example In 2002, there were around 40.5 million citizens of United States who were enrolled in the program. In 2006, the government paid more than $80,000 for the program. The following is the data on the progress of the program. The data above shows how the US Government spends money on various specials groups in the population. The old age Insurance covers the retired workers, Spouses and children. The Survivors Insurance covers the widows, widowers and parents. It also covers the widowed mothers and fathers. The children are also included in the insurance cover. Lastly, the Disability Insurance covers the Disabled workers, Spouses and Children. This report refers to the month of February 2012. As compared to the earlier years, the government has improved both in Medicare and Social Security provision. In 2005, the USA residents had lost hope in the social Security Reform. In the same year, the residents were not concerned at all by the Medicare Reform. What mattered to them most was on the progress of the war against Iraq. The economic goals will be achieved through improving the care given to the elderly, developing and promoting a holistic approach which is person centered to the person who is given the care, through recognition and focusing on the empowerment of the beneficiary, and enhancing equality control throughout the systems of social security and Medicare. The policy recommendations stated that there was going to be no changes to social security since it does not contribute to deficit reduction. The president also believed that social security is not a driver of medium term deficits. The president reported that the Social Security program does not contribute at all to the deficit. There was a recommendation that the Social Security cuts to be put off. The other policy recommendation was to increase the eligibility age of those who were receiving the Medicare from age 65 to 67. The

Colony Textile Mills Essay Example for Free

Colony Textile Mills Essay History Colony Group is one of the leading and oldest Textile Manufacturing group in Pakistan. The 1st industrial venture of the group was in cotton ginning sector back in 1881. Gradually the group diversified in to flour milling in the early 1900s. First textile spinning plant was put up in 1946 under the name of Colony Textile Mills Limited. The Group further ventured in to Banking, Insurance, Cement, and Power Generation Distribution. By 1952 Colony Textile Mills Limited was a composite textile plant with a 120,000 spindles, 1,500 looms, and fabric finishing capacity in excess of 150,000 meters per day. Nationalization of 1972 took most of the business away, leaving Textile and Insurance in the Group. Presently, there are two companies in the group, namely, Colony Textile Mills Limited (CTM) with about 195,000 Spindles, and Colony Industries (Pvt. ) Limited (CIL), consisting of 35,000 Spindles and 418 Air Jet Looms. Width | Looms| | 190cm| 180| 176 Cam +12 Dobby + 12 Crank (20 Looms with Batchers)| 210cm| 24| 24 Cam Looms (4 Looms with Batchers)| 280cm| 26| 20 Cam + 6 Dobby| 340cm| 188| 174 Cam + 14 Dobby| Competitive Dimensions CIL is a very strong and only group that has 418 Looms in same place. This helps in fulfilment of large orders at high speed. If the looms are installed at different locations large orders cannot be processed because of factors like communication barrier and increased cost of transportation etc. Another unique thing CIL has is the Automatic Drawing in machine. When order of new quality is received it needs to be designed for the loom to work on. If manually this process is done the time required to feed the new design in the loom would be around 16 hours. The time CIL takes to do the same task is just 2 hours with better efficiency. This automated machine is only available at CIL and increases order fulfilment speed. The power requirement for the setup of 418 looms, compressor fleets and other support functions is 8MW. The cost of power i. e. electricity is reduced to a greater extent by manufacturing through its own power generation system which produces 10MW through Natural gas. Moreover for an uninterrupted supply of electricity CIL has its own grid station. Similarly CIL’s own compressors fleet decreases the cost of raw material i. e. compressed air which prevents the machinery from heating up and maintain humidity and temperatures. Capacity Capacity or the production of looms greatly depends upon the quality of fabric. If fabric is of high quality production will be less. The reason behind this is high quality fabric uses fine threads. Production also depends upon the number of threads used in manufacturing. 6 million meters per month approx production has been recorded by CIL. Initially there were 120 looms at CIL. Capacity addition was done in March 2005 and 154 looms were added. Capacity addition for the 2nd time was done at the end of 3rd quarter by adding 144 looms making production capacity of 6. 0 million meters fabric per month. Core Services and Value Added Services The core service of CIL is grey fabric manufacturing. They don’t provide internal information of accounts, operations etc. to external people. However they provide samples to their clients which are sales support. Field support is also not easy in this weaving business but they do rectify the error within the specified time. Fail Safing techniques Automated motion sensors Automated motion sensors stop the process of creeling, sizing and weaving whenever a thread breaks down or any error appears in the process. This prevents errors from increasing. Online Inspection System Online Inspection system is a manual system by which errors can be checked by mills manager. The data is fed to the system by operators and is evaluated by mills manager for removal of errors. During Production Checks Technicians and operators are responsible for checking and removing the errors during production. After Production Checks Inspection and folding department rectifies error if it still exists before packing. After packing the order is randomly checked so that client gets error free order. Process Selection The type of processes they are using at the most basic level is Fabrication rocess that means Colony Industry converts their raw material i. e. raw yarn to grey fabric. Grey fabric is the form of fabric before printing or dying. This process of fabrication is termed as Weaving in the terminology of Textile business. Yarn flow is organized in the factory by process technology known as batch shop. Yarn is retrieved from yarn procurement department as the order is receive d for the production of grey fabric and then it is processed in the form of batches or order. Mill consists of 3 Units each having 2 Sheds which are control units. Hierarchy of authority is in Appendix. Each Unit is headed by Mills manger and so on. Production in charge are responsible for 60, senior technicians for 16 and Operators for 4-6 looms. Warping Creeling Quality Check Yarn High Spinning Mill Low Sizing Head Stock Warper Beams Drawing In Sizing Roll Inspection Bales Packaging Weaving Approve Pallets Disapprove Storage Treatable Treat Yes No Waste No Flow Chart Marketing department receives order and transfer production order to the mill. Mill staff plans the order and tells yarn procurement department for yarn purchase. This department purchases yarn from colony’s spinning mill and other spinning mills. The yarn is not stored at the mill but it is received from the source when needed. Once yarn is received by the mill it is sent to quality check department for inspection where yarn is weighed and tested for hair and tension. If the yarn is not approved, it is sent back to the source otherwise it is transferred to the next department. This yarn is in the form of spindles which is loaded on creeling machine manually. Then the process of warping starts in which these spindles are unrolled and rolled on the warping beams which are then transferred for sizing. In the process of sizing, starch and polyvinyl along with some other chemicals and water are cooked and applied to the yarn. This process makes yarn able to go through the next steps by increasing its strength and elasticity. After drying the yarn, ends are separated in a manner that they do not stick to each other. This dried yarn is rolled on temporary storage which has the size according to the width of the cloth known as sizing head stock. After the process of drawing in as explained previously, it is injected to the loom for the process of weaving. The temperature is controlled by a special system of compressor fleet. Once weaving is done, inspection of each inch of cloth is done for quality assurance where decision is made regarding acceptance, rejection and mending of cloth. After approval, it is sent for packing as mentioned in production order and if fabric is not approved, it is mended otherwise it is sent to the waste. Back Process: In Warping, the whole set-up is of Ben-Direct Benninger V 1080/2400. Colony Ind. has 6 Warping machines with the Creel Capacity of 1080 each. Each machine is with the electronic sensors for the tracing of broken ends. In Sizing, Colony has the Ben-Sizetech Zell KVE, Creel 32 WW/4000 machines. Colony has 4 Sizing machines, 3 with the Head Stock size of 4 meters. Total Creel Capacity ranges from 16 (1 m/c) to 28 (1 m/c) till 32 (2 m/c’s). The Sizing machine is with pre-wet technology with double dip sow-box. Colony has an additional facility of Beam Stacker which is not found anywhere else in Pakistan. Colony is equipped with 2 Beam Stacker from Formia Nova of Italy with total of 65 bars holding the capacity of 195 no of beams for Narrow 130 no of beams for Wider. DRAWING-IN Colony has the state of the art 2 Automatic Drawing-In machine which is found rare in Pakistan. One machine is from Staubli (Delta 110-4) which has the capacity of 150,000 ends/day filling with the speed of 140 threads/min. The 2nd machine is from ELM S. P. A (Super Vega) which has the 80 threads/min filling speed. Weaving Colony has the total production of 6. 00 million meters fabric/month with 418 looms all of Toyota JAT 710 in production. In the 190 cm section (Narrow looms), they have 180 looms, 24 with the batching motions. Folding machines has the total capacity of 25k/shift/machine. Rolling machine is with the production of 10000 meters fabric/shift/machine Quality Inspection/folding is the process for quality checks. In this process each inch of fabric is inspected. The quality of fabric depends upon the discretion of client and is checked according to the efficiency of loom stated in Production Order. Price also increases with the fineness of the fabric. During the process if any defect is found than it is decided according to the nature of the defect whether to allow it or treat the fabric. Then fabric is categorized into three grades A, B and C. A is finest category and is considered to be of export quality, while B and C are of lower quality. They follow 4 point system which allows maximum of 4 errors and is world wide accepted. Colony has fully equipped Quality Lab with all kind of testing equipments including the Uster Tester 4 for yarn checking. Quality Lab make sure that there is no compromise in the quality of the yarn used the fabric produced. The whole set-up has the check points from Quality Department from Back Process to Article, from Inspection to packing, thus resulting in the production of 1st class A-Grade fabric as committed. Colony has the Wrapping Reel from Mesdan Italy with the Model # S-389 A used for the making of lea. It follows the ASTM standard of D-1907-01. Auto Sorter is from Uster Switzerland with the Model PR 503 DR. Most Important machine in the Lab of colony is Uster UT -4 with the Model SE 400101-02100. Make of UT-4 is from Uster Switzerland for the checking of IPI’s in the yarn. For the checking of Hairiness in the yarn, colony has the Hairiness Tester from Zweigle Germany with the Model G-567. To check the Tear Strength of the fabric, colony has the Tear Strength Tester from Zweigle Germany with the model FX-3750. Their primary focus is quality because CIL is export based company. If quality is not up to the mark clients move to Bangladesh and China because they provide cheap products with low quality. Pakistani fabric is famous for its high quality and perfection. Recommendations: 1. Sales of local sector are dependent on few companies. The proportion of sales should be changed so that colony’s risk is minimized. This will also help in improving performance as it will result in sale increase. 2. Sale per order should be considered and goal should be â€Å"the more worth of order, higher should be the frequency of order. 3. Monitoring systems that allows online communication and control of looms should be installed to manage the system more accurately. 4. Employees should be decreased by bringing in automated creeling machine which reduces the time by automatically removing the spindles once the thread is removed from them. 5. Operations focus should be on wide looms as they have s aid that these wide looms have generated greater inflows. 6. Capacity addition should be kept in view as it has been around 3 years now before the last addition was made. 7. Training of employees by sending them to technical institutes abroad should be done as fail safing technique to reduce the chance of defect in the fabric. 8. Colony has fewer inflows in exports and greater in local therefore sales efforts should be engaged to increase local orders and increase inflows from exports. 9. Colony should use ingredient branding like they can market their cloth by informing clients about the brand of Looms Company have installed. 10. Operations policy should be made and reviewed continuously. Every employee should be involved in designing the policy. Appendix

evilmac womenmac Evil In Women and Its Effect on Macbeth :: Free Macbeth Essays

Evil In Women and Its Effect on Macbeth "...My thought, whose murder yet is but fantastical, Shakes so my single state of man that function Is smother'd in surmise, and nothing is But what is not." (1.3.140-143). Throughout Shakespeare's play, we see that Macbeth is the victim of evil seduction by women. In the above quote the evil is perpetrated by the witches. Lady Macbeth also plays a strong role in his moral corruption. "... the influence of Lady Macbeth (though she too has an inarticulate angel struggling against her own evil), and the instigation of a supernatural power all combine to crush his better nature." (Boyce 391). Macbeth would not have even thought of killing Duncan, if it were not for the influence of the witches and his wife. Historically, man has been corrupted by woman. Going back to the story of Adam and Eve, we see such an example. ".. she took of the fruit thereof, and she did eat it; and she gave it unto her husband..." (Genesis 3.6). Eve, out of fear, beguiled Adam. In Macbeth, Lady Macbeth and the witches, succumbing to greed, corrupted Macbeth. Lady Macbeth's actions parallel those of the witches. The witches planted the idea that Macbeth should become king. Lady Macbeth followed through with this idea by pushing Macbeth to kill Duncan. "... a very definition of the weird sisters - calling on them to unsex her to cram her with cruelty from top to toe..." (Bloom 29). This quote illustrates the connection between Lady Macbeth and the witches, showing us that they both participated in Macbeth's moral decline. Shakespeare, it seems, utilizes the symbol of the witches to portray the basic evil inherent in Lady Macbeth. One could not have worked without the other. If it were only the witches' prophecies, then Macbeth would surely not have murdered Duncan. It was because Lady Macbeth constantly harassed her husband, that he was driven to commit all this evil. "... her blood thickened, her milk changed to gaul - into the inhuman, the distortion of nature..." (Ludwyk 233). This illustrates the complete metamorphosis of Lady Macbeth from a loving, beautiful, caring, kind wife to a ruthless, nasty, shrew of a woman. The women in this play distort Macbeth's intuition so much that he thinks he is doing the right thing. "... his liberty of free choice is determined more and more by evil inclination and that he can not choose the better course..." (Bloom 55). Even after the deed is done, Lady Macbeth greets her husband and "... her greeting recalls the weird sisters.

Effects of Computer Technology as a Teaching Method

Effects of Using Instructional Technology in Colleges and Universities: What Controlled Evaluation Studies Say. This report and related issue briefs are available at:    © 2003 SRI International Early studies of effectiveness By 1991, this author’s research team at Michigan had carried out meta-analyses of findings from 121 controlled studies of teaching in colleges and universities (J. Kulik et al. , 1980; C.Kulik & Kulik, 1986; C. Kulik & Kulik, 1991). The studies contained results from a variety of computer applications in a number of different disciplines. Among the 121 studies were a substantial number on computer tutorials and computer simulations in science. The results from these early studies provide a good standard for gauging recent contributions of tutorials and simulations to science teaching, and are therefore reviewed here. Listed in the 1986 and 1991 reviews were achievement effect sizes from 37 studies of computer tutoring in college courses.Results of the se studies favored the computer-tutored students by a small amount. In 26 of the 37 studies, the tutorial group outperformed the control group; in the remaining 11 studies, the control group scores were higher. The effect sizes in the 37 studies were between –1. 20 and 1. 25. The median effect size was 0. 15. This effect is not large enough to be considered educationally meaningful. It suggests that computer-tutored students would perform at the 56th percentile on relevant achievement tests, whereas conventionally taught students would performat the 50th percentile.Results of computer tutoring in science courses were similar to results in nonscience areas. These reviews also contained findings from 13 studies of computer simulations in science. Results of these studies were favorable to the groups that worked with the computer simulations. In 11 of the 13 studies, the simulation group outperformed the control group, but in the remaining studies, the control group outscored th e simulation group. The effect sizes in the 13 studies were between –0. 14 and 1. 27. The median effect size was 0. 25. Effect sizes of 0. 25 and over are usually considered to be educationally meaningful.By this standard, the effects of computer simulations are just large enough to be judged as educationally meaningful. An effect size of 0. 25 suggests that students who worked with simulations would perform at the 60percentile on relevant achievement tests, whereas conventionally taught students would perform at the 50th percentile. Computer tutoring Seven studies of computer tutorials from the 1990s were identified for this literature review. The studies examined two kinds of instructional outcomes: student achievement and student attitudes (Table 7).Effects of computer tutorials on both outcomes were mixed. Large or moderate positive effects. The effects of computer tutoring were large and positive in two studies (Kitz & Thorpe, 1995; Vitale & Romance, 1992). Both of these studies examined effectiveness of videodisc software from Systems Impact Corporation. Conclusion It is clear that computers can contribute substantially to the improvement of college teaching. Evaluation studies of the past decade usually found that college courses taught with computer help were more effective than similar courses taught without such help.These recent studies produced far more favorable results than did studies of the 1960s, 1970s, and 1980s. In 119 studies carried out between 1967 and 1986, the median effect of instructional technology was to raise scores on examinations by 0. 30 standard deviations (C. Kulik & Kulik, 1986, 1991). In the 46 more recent studies reviewed in this report, the average effect of instructional technology was to raise student scores by 0. 46 standard deviations. Both gains are large enough to be considered educationally meaningful, but a gain of 0. 46 standard deviations on achievement tests is clearly a more important gain.There were clu es in the earlier reviews that computer applications were becoming increasingly effective as the years rolled on, but early reviewers did not chart the change in evaluation results over time (e. g. , C. Kulik & Kulik, 1986, 1991). Now, the time trend is impossible to ignore. Analysis of results in the earlier reviews shows that the median effect size was –0. 13 in 5 evaluation studies of instructional technology published during the 1960s, 0. 22 in 85 studies published during the 1970s, and 0. 35 in 35 studies published during the 1980s.This review found a median effect size of 0. 46 in 46 studies published during the 1990s. In other words, computer-based teaching was as likely to shortchange college students as to help them in the early years of the computer revolution, but today’s students are likely to gain substantial educational benefits when their teachers incorporate instructional technology into their courses. The effectiveness of computer applications in colle ge courses is not restricted to a single area. This review shows that computers have made significant contributions to a variety of instructional areas.Computer contributions were clear in mathematics courses, where computers are being used as algebra and calculus tools; in science courses, where older computer applications such as tutoring and simulation programs are being used along with such newer applications as computer animations; and in the field of language learning, where a diversity of computer approaches are now being tried. Of all the results reviewed in this report, the most notable came from studies of computer and calculator use in algebra and calculus courses. Twelve studies focused on this topic. Six of the 12 studies took place in algebra courses.The remaining six studies took place in calculus courses. In each of the studies, experimental group students used computers or graphing calculators while doing coursework, whereas control group students completed their co ursework without using such tools. In the typical study, computer and calculator use raised student scores on tests of conceptual understanding a total of 0. 88 standard deviations. This means that students who used computers and graphing calculators while studying algebra and calculus scored 0. 88 standard deviation units higher on conceptual tests than did students in the control group.If control group students scored at the 50th percentile on a conceptual test, scores of students using computers or calculators would be at the 80th percentile or above. Evaluations of educational innovations rarely report average effect sizes this high. 40 Results on computational exams, on the other hand, were strongly influenced by the conditions under which the exams were taken. In studies in which experimental group students were permitted to use computers or calculators on final exams, they outscored control group students by a large amount on computational items.In studies in which neither th e experimental group nor the control group was allowed to use computers and calculators on final exams, students in the experimental group performed computations about as well as students who learned in more traditional classes. Overall, these studies suggest that students who used calculators and computer tools when learning algebra and calculus did not suffer in their ability to solve computational problems with paper and pencil alone. Finally, a review of study results did not yield any definite conclusions about the effects of computer and calculator use on student attitudes toward mathematics.In two studies, mathematics attitudes were clearly higher in the experimental groups, but in three other studies, mathematics attitudes were not significantly different in the experimental and control groups. No definite conclusion about computer and calculator effects on attitudes can be drawn from such conflicting results. Studies of computer effects on science learning examined both old er and newer instructional approaches. The two older approaches still being evaluated during the 1990s were computer tutoring and computer simulations.The newer approach that was extensively evaluated during the 1990s was computer animation. Reviewed in this report were 7 studies of tutoring, 11 studies of simulations, and 9 studies of animations. The seven studies of tutorial instruction examined two kinds of instructional outcomes: student achievement and student attitudes. Effects of computer tutorials on student achievement were mixed. Four of the six studies of student learning reported significant positive effects of tutoring, and two studies reported trivial effects. The median effect size in the studies was 0. 33. Tutorial effects on attitudes were likewise mixed.One study reported strong positive effects of computer tutoring on student attitudes; one study reported a strong negative effect; and one study reported a nonsignificant positive effect. Eleven studies of computer simulations in science also presented a somewhat mixed picture of effectiveness. In 7 of the 11 studies, effects were large enough to be considered statistically significant and educationally meaningful, but in 2 other studies computer results were nonsignificant and in the remaining 2 studies results were significant and negative. Median effect size in the 11 studies from the past decade was 0. 9. While the most likely outcome of using simulations in teaching was an increase in student test performance, using simulations could also have a negative effect or no effect at all on student test scores. The studies suggest that computer simulations can be valuable tools for teachers, but teachers must use some care in deciding on how to use simulations and which simulations to use. Computer animation is the most recent addition to the science teacher’s toolkit, but this instructional innovation has already compiled a record of strong contributions to science instruction.In each of nine studies of computer animations, the group that viewed the animations outscored the control group, but the effects differed in size from small to large. In seven of the nine studies, the improvement was large enough to be considered educationally meaningful. The remaining two studies reported positive effects of animations, but the effects were not large enough to be considered practically important. The median effect of computer animations in the nine studies was to increase student scores on science tests by 0. 8 standard deviations. As a group, therefore, these studies suggest that animations can help students substantially in their attempts to understand scientific phenomena. Computer searches yielded a total of only seven controlled quantitative evaluations of computer-assisted language learning (CALL), and these studies were extremely varied in focus. 41 Each of the studies examined its own approach to improving language instruction with technology, and so the studies do not provide a sound basis for conclusions about CALL effects.Several years ago, Miech and his colleagues observed that the area of CALL lacks an agreedupon research agenda (Miech et al. , 1996). Their point seems to be as valid todayas it was when they first made it. Diverse though evaluations of CALL may be, they have yielded enough strong positive results to encourage CALL enthusiasts. In each of seven evaluations, CALL had at least a small positive effect on instructional outcomes, and in five of the seven studies, CALL effects were large enough to be considered educationally meaningful.The median effect of a CALL program in the seven studies was an increase in language test scores of 0. 60 standard deviations. This is a moderate to large improvement in student performance, equivalent to a jump in scores from the 50th to the 73rd percentile. These results suggest that a number of approaches to CALL may have positive results on student learning. Although the various approaches sti ll need in-depth examination, the future of CALL appears to be promising. Overall, computer-based teaching approaches have come a long way during the last four decades.Originally almost a hindrance to learning, computer-based instruction is now an important ingredient in many successful college courses. The growing effectiveness of instructional technology in college programs should not come as a great surprise. Computers have improved dramatically during the last three decades. They are faster, friendlier, and vastly more sophisticated in their operations than they were 35 years ago. In addition, many educators have become sophisticated designers of instructional software, and most college students have become proficient users of computing technology.Recent evaluation studies suggest that instructional technology can thrive in this climate and that computers—which have transformed society in so many ways—are also making college teaching more effective. The Effects of Computer Assisted Instructions in Teaching & Learning in Primary Education By Kara Schmidt, eHow Contributor Computer-assisted instruction provides another avenue to academic success. Computer-assisted instruction offers teachers and students another avenue to learn the required academic material. Educational computer programs are available online, at computer stores or through textbook companies.Stick with programs that are user-friendly and hold your students' attention. Make sure the programs are at the correct grade level. Decide if you want the computer program to supplement your lesson, practice basic skills, or assist in teaching a new concept and make sure it does just that. 1. Student Benefits Computer-assisted instruction provides differentiated lessons for varied levels of learning, including students with disabilities and gifted students. Students are able to work at their own pace while receiving instant feedback which enables them to self correct before moving on to th e next skill.If a student answers incorrectly, the computer programs will provide instructions to assist the student in correcting their work. The programs are interactive and students can work individually or in groups. This allows them to compete with their individual scores or the scores of the students within their group. Students also gain valuable computer skills which will continue to benefit them throughout life. 2. Teacher Benefits Teachers are better able to track their students' strengths and weaknesses through computer-assisted learning. Computer programs can enhance the essons and allow teachers to pick different levels of a program or different programs altogether for students who may be behind or students who are advanced. When students are learning and actively involved with learning, teachers will have less behavior problems in the classroom which in turn sets up a cycle for more learning to take place. Computer-assisted learning benefits teachers by allowing them t o work with small groups of children on a particular skill while the other students in the class are working on their computer program.The nature of the program allows the students to work independently; minimizing distraction to the teacher while she works with the other students. Disadvantages Computer programs can evaluate students' progress on many levels although it is the teacher's responsibility to make sure students develop critical thinking skills which are essential to solve problems encountered throughout life. Too much time spent learning through computer programs can also reduce time students spend interacting with each other and their teacher. This can result in less time for learning appropriate social skills.Computer-assisted learning can be a great asset to the classroom and curriculum as long as they are not overused. Too much of any mode of teaching can lead to boredom and frustration in the students. Use good judgment and find computer programs that enhance the l earning process. Sponsored Links * Bulk Email–Free Trialwww. iContact. com Email marketing to fit your needs. Start a Free 30-Day Trial Today. * Educational Technologywww. met. ubc. ca International Master's Program 100% Online – Apply Now * The Knowledge Engineerstheknowledgeengineers. om/ Leading digital training company, accelerate your digital knowledge * Search Cebu hotelsAgoda. com/Cebu_Hotels Instant confirmation. Trust Agoda. Save up to 75% Don't miss out! Related Searches: * Teaching Students * Teaching Career * Computer Technology * Video Teaching * Learning Online Read more:  The Effects of Computer Assisted Instructions in Teaching & Learning in Primary Education | eHow. com  http://www. ehow. com/list_7408273_effects-teaching-learning-primary-education. html#ixzz1qFW4xJoO Brief History of Computers in EducationComputers and related technologies are now in most of the schools in all around theworld. Advancements in technology are inevitably reflected in educational systems. In most of the developed countries education has been penetrated by informationtechnologies (IT); schools have computers, a large numbers of teachers usecomputers and new technologies while teaching, and more  over textbooks have someparts devoted to new  technologies. New technologies are integrated into disciplines and more disciplines are beinginfluenced by the new technologies in an integrated way.Most of the educators andresearchers try to use technologies in various subject matters, and this integrationchanges the nature, concepts and methods of work in each subject. For example, inmathematics education, the way of teaching and learning, the roles and functions of  the most concepts have changed with the use of  technology. 19Although the wide-spread interest in computers as an instructional tool did not occuruntil the 1980s, computers were first used in education and training at a much earlierdate.Much of the early work which computers introduced in education was done inthe 1950s by researchers at IBM, who developed the first Computer AssistedInstruction (CAI) author language and designed one of the first CAI programs to beused in public schools. Students followed the commands on the computer screenreceiving rewards for correct answers within the framework of behavioristapproaches. In 1959, PLATO, the first large-scale project for the use of computers ineducation was implemented by Donald Bitier at the University of Illinois (Carter,2003).Atkinson and Suppes’ (1959) work led to some earliest applications of  computers at both the public school and university levels during the 1960s. By theearly 1980s many educators were attracted to microcomputers because they wererelatively inexpensive, compact enough for desktop use, and could perform many of  the functions performed by the large computers that had preceded them. The dominant use of computer-based instruction in the 1980s was typified by theemploy of â€Å"beh avioral-based branching† software that based greatly on drill-andpractice to teach programmed content and/or skills.The  educational software that ranon the computers of the early 1980s were at first based on Skinner’s â€Å"methods of  branching†: first separating into small sections, rewarding combined responses, andteaching disconnected facts. Although the learning is passive where learners do notwork together with problems and content, research studies indicate that learner didadvantage from the technology when the learning objectives were behavioral. During the 1990s, computers eventually started to have a major impact oninstructional practices in schools.With the help of advances in technology andlearning, science researchers consider learning with technology as means forconstruction problem-solving skills and for achieving learner independence. Thecognitive approach to instructional technology emphasized â€Å"looking at how we knowrather than how we respond, and analyzing how we plan and strategize our thinking,remembering, understanding, and communicating† (Saettler, 1990, cited inhttp://www. ncrel. org/ tplan/cbtl/toc. htm,  2003). Besides,  students  would  also  tolearn through playing games and simple simulations with the help of cognitive 20school of thought.The worth of using a word processor has been discovered bywriting teachers and almost immediately students were using the advantages of wordprocessor by writing, deleting, formatting and revising with effortlessness. Othersubject matter teachers perceived the importance of the computer in creating a richlearning environment by using databases, spreadsheets, presentation, and researchtools. Since 1995, rapid advances in computer and other digital technology, as wellas the Internet, have led to a rapidly increasing interest in and use of these media forinstructional purposes (Reiser, 2001).Swiftly there was a volume of informationobtainable to students w ith a network of people all through the world that improvedcommunication and the exchange of thoughts. Additionally, distance educationcourses are offered and in this way students in geographically isolated schools haveextended learning opportunities in a diversity of  subject areas. For example in UnitedNations, Kalu (2006) states â€Å"the proportion of instructional rooms with Internetaccess increased from 51 percent in 1998 to 93 percent in 2003† (p. 3). Theoreticalexplanations could now be demonstrated and manipulated with the help of  technology innovations.A complete innovative learning environment becamepossible. Since the advent of the personal computers in the mid 1980s, computers have rapidlybecome one of the key instructional technologies used in both formal and informaleducation. The computer’s role has changed because of two factors: first, it canprovide rich learning experiences for students and secondly, computer givingstudents the power to manipula te depth and way of their learning. Furthermore,teachers can use the computer as an aid to manage classroom activities; it has amultitude of roles to play in the curriculum which can range from tutor to studenttools.