In a way it is the nature of teaching and learning, but there's more to it because not all of teaching and learning has to do with the specific content of the course or lesson. Rather, part of teaching and learning is the development of critical thinking skills.
While it's too much to go into here, for anyone really interested in educational theory it would be instructive to spend a couple of hours searching and reading about Bloom's Revised Taxonomy. Essentially, this theory posits that learners progress through a series of stages in their development of thinking and reasoning skills and that these skills, when applied in a learning situation, facilitate learning. When critical thinking skills have not been developed, learners will be blocked from progressing in their ability to internalize the lesson or information they are presented with until those thinking skills have been developed.
Thus, in the example that Blair gives us of the young man he is mentoring, the learner appears to be "stuck" between the Understanding and the Applying stages, which are quite low on the ladder in terms of critical thinking. He will probably not be able to progress or function without direct supervision until he can perform higher level thinking.
Remembering: Recalls previous learned information. (Examples: Reciting a policy. Quoting prices from memory to a customer. Knowing the safety rules. Repeating the first rule of scuba diving: never hold your breath.)
Understanding: Comprehends the meaning, translation, interpolation, and interpretation of instructions and problems. States a problem in one's own words. (Examples: Explaining in one's own words the steps for performing a complex task. Summarizing the key points of a discussion. Explaining the cause and effect of pressure changes on gasses.)
Applying: Uses a concept in a new situation, or without prompting uses an abstraction. Applies what was learned in training situations in novel real-world situations. (Examples: Using an instruction manual with general information to solve an actual, specific problem. Using laws of gas physics to create a dive plan based on the diver's air consumption rate and the available gas in the cylinder.)
Analyzing: Separates information or concepts into component parts so that its organizational structure may be understood. Distinguishes between facts and inferences. (Examples: Troubleshooting a piece of equipment by using logical deduction. Recognizing logical fallacies in reasoning. Reflecting on the events leading up to a pressure-related injury during scuba diving and selecting which are contributing factors and which are not, e.g., in the OP's story, the difference between a 60 foot max depth and and a 70+ foot max depth in relation to his ear injury.)
Evaluating: Makes judgments about the value of ideas or materials. (Examples: Considers a number of solutions to a problem and selects one. Finds the right dive center to work with based on an individual needs analysis. During a dive, when confronted with an issue, acts rationally and pro-actively rather than expecting another to solve the problem for him.)
Creating: Builds a structure or pattern from diverse elements. Put parts together to form a whole, with emphasis on creating a new meaning or structure. (Examples: Integrating training from several sources to solve a problem. Using another diver's experience to revise one's own procedures in order to improve an outcome. Writing a post on ScubaBoard about techniques for effective ear clearing in response to a user's specific question.)
Understanding: Comprehends the meaning, translation, interpolation, and interpretation of instructions and problems. States a problem in one's own words. (Examples: Explaining in one's own words the steps for performing a complex task. Summarizing the key points of a discussion. Explaining the cause and effect of pressure changes on gasses.)
Applying: Uses a concept in a new situation, or without prompting uses an abstraction. Applies what was learned in training situations in novel real-world situations. (Examples: Using an instruction manual with general information to solve an actual, specific problem. Using laws of gas physics to create a dive plan based on the diver's air consumption rate and the available gas in the cylinder.)
Analyzing: Separates information or concepts into component parts so that its organizational structure may be understood. Distinguishes between facts and inferences. (Examples: Troubleshooting a piece of equipment by using logical deduction. Recognizing logical fallacies in reasoning. Reflecting on the events leading up to a pressure-related injury during scuba diving and selecting which are contributing factors and which are not, e.g., in the OP's story, the difference between a 60 foot max depth and and a 70+ foot max depth in relation to his ear injury.)
Evaluating: Makes judgments about the value of ideas or materials. (Examples: Considers a number of solutions to a problem and selects one. Finds the right dive center to work with based on an individual needs analysis. During a dive, when confronted with an issue, acts rationally and pro-actively rather than expecting another to solve the problem for him.)
Creating: Builds a structure or pattern from diverse elements. Put parts together to form a whole, with emphasis on creating a new meaning or structure. (Examples: Integrating training from several sources to solve a problem. Using another diver's experience to revise one's own procedures in order to improve an outcome. Writing a post on ScubaBoard about techniques for effective ear clearing in response to a user's specific question.)
Last edited:
