10.8 Applying Expertise to Problems

With the term expert we describe someone who devotes large amounts of his or her time and energy to one specific field of interest in which he, subsequently, reaches a certain level of mastery. It should not be of surprise that experts tend to be better in solving problems in their field than novices (people who are beginners or not as well trained in a field as experts) are. They are faster in coming up with solutions and have a higher success rate of right solutions.

Experts Differ from Novices

But what is the difference between the way experts and non-experts solve problems? Research on the nature of expertise has come up with the following conclusions:

  • Experts know more about their field.
  • Better schemas with well-organized knowledge in specific domain.
  • Experts spend more time analyzing the problem and less time to set up problem.
  • Experts select more appropriate strategies, are faster at solving problems, and are more accurate

Experts have extensive (and large “chunks” of) knowledge that is used to organize, represent, and interpret information and which facilitates their abilities to remember, reason, and solve problems. When it comes to problems that are situated outside the experts’ field, their performance often does not differ from that of novices.

Novices, on the other hand, are more likely to start working on the problem right away, but then are more likely to reach a dead end as they chose a wrong path in the very beginning.

Experts’ Knowledge and Moving from Problem Solving to Pattern Recognition

Studies by DeGroot (1965) and Chase and Simon (1973) dealt with the question how well experts and novices are able to reproduce positions of chess pieces on chessboards when these are presented to them only briefly. The results showed that experts were far better in reproducing actual game positions, but that their performance was comparable with that of novices (or worse) when the chess pieces were arranged randomly on the board.

Chase and Simon concluded that the superior performance on actual game positions was due to the ability to recognize many familiar patterns: A chess expert has up to 50,000 patterns stored in his memory. In comparison, a good player might know about 1,000 patterns by heart and a novice only few to none at all. This very detailed knowledge is of crucial help when an expert is confronted with a new problem in his field.

Still, it is not pure size of knowledge that makes an expert more successful. Experts also organize their knowledge differently from novices.


Experts’ Organization of Knowledge:

In 1982 Chi, Glaser, & Reese took a set of 24 physics problems and presented them to a group of physics professors as well as to a group of students with only one semester of physics.

The task was to group the problems based on their similarities. As it turned out the students (novices) tended to group the problems based on their surface structure (similarities of objects used in the problem, e.g. on sketches illustrating the problem), whereas the professors (experts) used their deep structure (the general physical principles that underlay the problems) as criteria. By recognizing the actual deep, underlying structure of a problem experts are able to connect the given task to the relevant knowledge they already have (e.g. another problem they solved earlier which required the same strategy – recall the use of analogies for problem-solving) (Chi, Glaser, & Reese, 1982).

Conclusion

Many different strategies exist for solving problems. Typical strategies include trial and error, applying algorithms, and using heuristics. To solve a large, complicated problem, it often helps to break the problem into smaller steps that can be accomplished individually, leading to an overall solution. Roadblocks to problem solving include mental sets (including functional fixedness), and various biases that can cloud decision making skills. However, such obstacles can be addressed by successfully applying a variety of problem-solving strategies and engaging in creative thinking; that is, considering problems through the lens of divergent thinking or altering the representation of a problem. These strategies can also be employed more effectively (in many cases) by experts in their domain of expertise.

 

definition

License

Cognitive Psychology Copyright © by Robert Graham and Scott Griffin. All Rights Reserved.

Share This Book