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- Define and give an example of encoding, acoustic encoding, visual encoding, semantic encoding, storage, and retrieval. Discuss the importance of encoding, storage, and retrieval in memory processes. (see Basic Memory Processes)
- Define and give an example of episodic, semantic, and procedural memories. (see Types of Memory)
- Define and give an example of explicit and implicit memories. Discuss the series of experiments on explicit and implicit memory. (see Explicit and Implicit Memory)
- Define the levels-of-processing model of memory. Describe the role of rehearsal in this memory model. Define maintenance and elaborative rehearsal. (see Levels of Processing)
- Define transfer-appropriate processing. Describe the role of encoding and retrieval processes in this memory model. (see Transfer-Appropriate Processing)
- Define the parallel distributed processing (PDP) model of memory. Describe the role of association networks in drawing inferences and making generalizations. (see Parallel Distributed Processing)
- Define the information-processing model of memory. Name the three stages of processing. (see Information Processing)
- Define sensory memory and sensory registers. Discuss the amount of information and the length of time it stays in sensory memory. (see Sensory Memory)
- Explain why selective attention is important in determining which information is transferred to short-term memory from sensory memory. (see Sensory Memory)
- Define short-term memory (STM). Discuss the relationship between short-term memory and working memory. (see Short-Term Memory and Working Memory)
- Describe short-term memory encoding. (see Encoding in Short-Term Memory)
- Define immediate memory span and chunks. Discuss the role of long-term memory in the chunking process. (see Storage Capacity of Short-Term Memory)
- Define the Brown-Peterson procedure. Describe the importance of rehearsal in maintaining information in short-term memory. (see Duration of Short-Term Memory)
- Define long-term memory (LTM) and discuss the importance of semantic encoding in long-term memory. Describe the storage capacity of LTM. (see Long-Term Memory)
- Describe the controversy over the differences between short-term and long-term memory. Define primacy and recency effects. (see Distinguishing Between Short-Term and Long-Term Memory)
- Define retrieval cue and explain why its use can increase memory efficiency. Define the encoding specificity principle. (see Retrieval Cues and Encoding Specificity)
- Explain how memory is both context-dependent and state-dependent and give examples of each. Explain the mood congruency effect. (see Context and State Dependence)
- Describe the semantic network theory of memory. Explain the process of spreading activation in memory. (see Semantic Networks)
- Define the tip-of-the-tongue and the feeling-of-knowing phenomena. Explain how these are related to the semantic network theory of memory. (see Retrieving Incomplete Knowledge)
- Define constructive memory. Describe how PDP memory models explain the integration of semantic and episodic memories in memory construction. (see Constructing Memories)
- Explain how PDP models produce spontaneous generalization and why they help explain the operation of schemas. (see Schemas)
- Discuss the use of eyewitness testimony in the courtroom. (see Linkages: Memory, Perception, and Eyewitness Testimony)
- Define Ebbinghaus's method of savings. Explain his discoveries and why they are important to memory research. (see How Do We Forget?)
- Compare and contrast the decay and interference theories regarding forgetting information stored in long-term memory. Define retroactive interference andproactive interference. (see Why Do We Forget?: The Roles of Decay and Interference)