Monday, October 21, 2019

Describe the cognitive processes required when preparing for examinations The WritePass Journal

Describe the cognitive processes required when preparing for examinations Introduction Describe the cognitive processes required when preparing for examinations ). The aptitude to process information selectively through attention, and retain information in a way in which is accessible through the working memory are two imperative aspects of cognitive capacity. While evidence indicates that attention plays little role in the maintenance of information encoded in the memory (Fougnie, 2008), it has been suggested that there are strong links between the working memory and attention faculties of the cognitive mind during the encoding and manipulation process of knowledge acquisition (Cherry 2014; Fougnie, 2008). Theoretical models of the working memory commonly describe a role for attention. However, between these different models, the exact role for attention has not been agreed on and remains vaguely unclear, thus debates about which processing stage that attentional selection occurs (Fougnie, 2008). The most widely accepted model of memory is the Working Memory Model proposed by Baddeley and Hitch in 1974. In this model, attention is the mediator between sensory memory and the central executive, where sub functions such as the phonological store and the visuospatial sketch pad, two short term memory stores, hold short term auditory and visual information respectively. These are known as the ‘slave systems’ and provide evidence as to how humans are able to multitask. According to the working memory model, the information from these slave systems are then transferred back to the central executive whereby they are encoded in the long-term memory (Fougnie, 2008). These findings provide an outline to which cognitive processes occur during exam preparation, where students attempt to retain information that they will later on retrieve. Yet, further research suggests that learning and retaining information for exams may be a more complex procedure than those outlined by memory models (Hill, 2009). Ebbinghaus (1885) investigated the method in which the retention and forgetting of information occur. The establishment of the forgetting curve provided insight into how memories dissipate over a period of time (Groome, Brace, Dewart, Edgar, Edgar, Esgate, Kemp, Pike Stafford, 2006). Similarly, Bartlett’s Story Recall experiment (1932) lent insight to the notion that information is required to hold semantic value in order to be remembered (Groome, et al., 2006). Thus, according to Hill (2009), the most effective ways for students to memorise information for their exams is through repetition, elaboration and organisation. To further elaborate on the suggestions of Ebbinghaus (1885), Bartlett (1932) and Hill (2009), researchers proposed several studies in sustenance. Ebbinghaus (1885) further stated that in order to avoid forgetting and enhance memory, repetition was significantly valuable. Making use of the ‘mind’s voice’, the phonological loop, the cycle o f learning and accurately recalling strengthens the memory, thus making exam preparation easier as less time will be required to re-learn the material, hence why revising for exams more than once improves recall (Hill, 2009). Moreover, in favour of Bartlett (1932), it has been found that information possessing semantic value is recalled more efficiently (Craik Tulving, 1975; Ley, 1978). It may be hypothesised that the explanation of is deduced to the attention function of the working memory selecting meaningful information in order to enhance the individual’s performance based on prior learning and experience. Based on these findings, mnemonics may be suggested as an effective revision tool, since associating information with vivid visual imagery and words has proven enhanced recall (Bower, 1972). Furthermore, presenting information in a structured manner in which meaning is conveyed has been found to facilitate recall (Hill, 2009). By grouping or ordering materials in an or ganised manner, the individual will take advantage of the mind’s existing method of representing information semantically, thus making the information easier to encode and retrieve through memory. For example, Ley et al (1978) found that presenting medical information to patients in an organised and structured way improved their recall up to 25%. Thus, it is suggested that students adequately organise their learning materials in a semantic manner in order to prepare for their exams in the most resourceful way. Although the literature has provided rich evidence to support the notion that the memory and attention faculties play a major role in exam preparation, there are also relevant limitations in need of addressing. The working memory model has been criticised as being invalid, as when new studies propose findings that do not fit with the current working memory model, the working memory model is modified in order to accommodate the new findings. This makes it difficult to falsify the model or replace it with a new one, and indicates that any research findings based on the working memory model are void (Neath Nairne , 1995). Moreover, the findings of Ebbinghaus (1885) have been questioned, as the subject of his study was himself. Without any objective findings, researchers believe the results of the forgetting curve to be unreliable (Hill, 2009). Despite these criticisms, later research based on both the working memory model and the forgetting curve has successfully uncovered new findings on the cognitive processes involved in memory (Groome, et al., 2006). In conclusion, the findings in the literature have lent ample support to the notion that exam preparation heavily relies on the cognitive processes of attention and memory. The literature has indicated that these two faculties work conjointly in order to achieve long-term memory. Studies on the Working Memory Model have identified the specific roles of the two cognitive processes, and the literature has provided further support on how the working memory model is vital in exam revision through detailed descriptions of these functions. Studies on memory retention and forgetting have implicated that repetition, elaboration and organisation are the key skills that an individual needs to employ whist preparing for exams in order to maintain an optimal memory capacity for the revised information. Regardless of the limitations associated with the research done on memory, the working memory model still stands as a strong representative for the cognitive process involved in exam preparation. References Baddeley, A.D. Hitch, G.J. (1974). Working memory, in G.H. Bower (Ed.),  The Psychology of Learning and Motivation: Advances in Research and Theory. Vol. VIII. 47-90, New York: Academic Press. Bartlett, F.C. (1932). Remembering. Cambridge: Cambridge University Press. Bower, G.H. (1972). Mental imagery and associative learning. In L. Gregg (Ed.), Cognition in Learning and Memory, 51-88. Broadbent, D. E. (1957) A mechanical model for human attention and immediate memory. Psychological Review, 64. 205-215. Cherry, K. (2014). 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