Theory Construction and Model-Building Skills: A Practical Guide for Social Scientists

Theory Construction and Model-Building Skills: A Practical Guide for Social Scientists

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by James Jaccard, Jacob Jacoby
     
 

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ISBN-10: 1606233408

ISBN-13: 9781606233405

Pub. Date: 12/30/2009

Publisher: Guilford Publications, Inc.

Meeting a crucial need for graduate students and newly minted researchers, this innovative text provides hands-on tools for generating ideas and translating them into formal theories. It is illustrated with numerous practical examples drawn from multiple social science disciplines and research settings. The authors offer clear guidance for defining constructs,

Overview

Meeting a crucial need for graduate students and newly minted researchers, this innovative text provides hands-on tools for generating ideas and translating them into formal theories. It is illustrated with numerous practical examples drawn from multiple social science disciplines and research settings. The authors offer clear guidance for defining constructs, thinking through relationships and processes that link constructs, and deriving new theoretical models (or building on existing ones) based on those relationships. Step by step, they show readers how to use causal analysis, mathematical modeling, simulations, and grounded and emergent approaches to theory construction. A chapter on writing about theories contains invaluable advice on crafting effective papers and grant applications.


Useful pedagogical features in every chapter include:


Application exercises and concept exercises.


Lists of key terms and engaging topical boxes.


Annotated suggestions for further reading.

Product Details

ISBN-13:
9781606233405
Publisher:
Guilford Publications, Inc.
Publication date:
12/30/2009
Series:
Methodology In The Social Sciences Series
Pages:
391
Product dimensions:
7.00(w) x 10.00(h) x (d)

Table of Contents

I. BASIC CONCEPTS

1. Introduction

Organization of the Book

Theories and Settings

2. The Nature of Understanding

The Nature of Reality

How Reality Is Experienced

Concepts: The Building Blocks of Understanding

The Nature of Concepts

Concepts, Constructs, and Variables

Conceptual Systems: The Bases for Deeper Understanding

Communication

Summary and Concluding Comments

Suggested Readings

Key Terms

Exercises

3. Science as an Approach to Understanding

Socially Based Approaches to Understanding

Commonalities across All Shared Conceptual Approaches

Special Features of the Scientific Approach

The Essentials of Scientific Endeavor

The Process of Theory Construction

What Is a Theory?

Theories, Models, and Hypotheses

Types of Theories

The Role of Theory in Basic versus Applied Research

Characteristics of a Good Theory

Science and Objectivity

Summary and Concluding Comments

Suggested Readings

Key Terms

Exercises

II. Core Processes

4. Creativity and the Generation of Ideas

Introduction

One Small Step for Science

Creativity

The Creative Person

Creative Ideas

The Creative Process

Deciding to Be Creative

Practical Implications for Theory Construction

Choosing What to Theorize About

Literature Reviews

Heuristics for Generating Ideas

Idea Generation and Grounded/Emergent Theorizing

Twenty-Six Heuristics

When the Focus Is on Basic Mental or Biological Processes

Scientists on Scientific Theorizing

Summary and Concluding Comments

Suggested Readings

Key Terms

Exercises

5. Focusing Concepts

The Process of Instantiation

The Nature of Conceptual Definitions

Shared Meaning, Surplus Meaning, and Nomological Networks

Practical Strategies for Specifying Conceptual Definitions

Multidimensional Constructs

Creating Constructs

An Example of Specifying Conceptual Definitions

Operationism

Summary and Concluding Comments

Suggested Readings

Key Terms

Exercises

6. Clarifying Relationships Using Thought Experiments

Thought Experiments for Relationships in Grounded and Emergent Theory

Describing Relationships with Different Types of Variables

Thought Experiments for Relationships between Categorical Variables

Categorical Variables with Two Levels

Categorical Variables with More Than Two Levels

Thought Experiments for Relationships between Quantitative Variables

Scatterplots

Characteristics of Linear Relationships

Nonlinear Relationships

When Nonlinear Relationships Are Linear

A Thought Experiment with Hypothetical Scatterplots

Thought Experiments for Relationships between Categorical and Quantitative Variables

Thought Experiments for a Categorical Cause and a Quantitative Effect: The Use of Hypothetical Means

Thought Experiments for a Quantitative Cause and a Categorical Effect: The Use of Hypothetical Probabilities

Thought Experiments for Moderated Relationships

Thought Experiments Using Hypothetical Factorial Designs

Hypothetical Factorial Designs with More Than Two Levels

Hypothetical Factorial Designs with Quantitative Variables

Hypothetical Scatterplots and Quantitative Variables

Summary for Moderated Relationships

Broader Uses of Hypothetical Factorial Designs in Thought Experiments

Relationships Characterized by Main Effects

Relationships Characterized by Simple Main Effects

Relationships Characterized by Interaction Contrasts

Choice of the Moderator Variable

Summary and Concluding Comments

Suggested Readings

Key Terms

Exercises

APPENDIX 6A. Thought Experiments for a Quantitative Cause and Categorical Effect: A Hypothetical Contingency Table Method

APPENDIX 6B. Thought Experiments for Moderated Moderation

III. Frameworks for Theory Construction

7. Causal Models

Two Types of Relationships: Predictive and Causal

Predictive Relationships

Causal Relationships

Causality and Grounded/Emergent Theory

Types of Causal Relationships

Constructing Theories with Causal Relationships

Identifying Outcome Variables

Identifying Direct Causes

Indirect Causal Relationships

Turning Direct Relationships into Indirect Relationships

Partial Mediation versus Complete Mediation

An Alternative Strategy for Turning Direct Effects into Indirect Effects

The Essence of Mediation

Moderated Causal Relationships

Mediated Moderation

Moderated Mediation

Moderated Moderation

Summary of Moderated Relationships

Reciprocal or Bidirectional Causality

There Is No Such Thing as Simultaneous Reciprocal Causality

Feedback Loops: Adding Mediators to Reciprocal Causation

Moderated Reciprocal Causation

Spurious Relationships

Adding Additional Outcomes

Adding Effects of Effects

Specifying Causal Relationships between Existing Variables

Summary of Additional Steps That May Create Spuriousness

Unanalyzed Relationships

Expanding the Theory Further

Temporal Dynamics

Disturbance Terms

Latent Variables, Structural Theory, and Measurement Theory

Revisiting Your Literature Review

Some Final Steps

Perspectives on the Construction of Causal Theories

Path Diagrams as Theoretical Propositions

A Note on Research Design and Statistical Analysis

Elaborating the Logic Underlying Each Path

The Use of Causal Analysis in Grounded/Emergent Theorizing

Summary and Concluding Comments

Suggested Readings

Key Terms

Exercises

8. Mathematical Models

Types of Variables: Categorical, Discrete, and Continuous

Axioms and Theorems

Functions

Linear Functions

The Slope and Intercept

Deterministic versus Stochastic Models

Model Parameters

Adjustable Parameters and Parameter Estimation

Rates and Change: Derivatives and Differentiation

Instantaneous Change

Second and Third Derivatives

Describing Accumulation: Integrals and Integration

Just-Identified, Overidentified, and Underidentified Models

Metrics

Types of Nonlinearity

Logarithmic Functions

Exponential Functions

Power Functions

Polynomial Functions

Trigonomic Functions

Choosing a Function

Functions for Categorical Variables

Advanced Topics: Manipulating and Combining Functions

Function Transformations

Combining Functions

Multiple Variable Functions

Phases in Building a Mathematical Model

An Example Using Performance, Ability, and Motivation

An Example Using Cognitive Algebra

An Example Using Attitude Change

An Example Using a Traditional Causal Model

Chaos Theory

Catastrophe Theory

Additional Examples of Mathematical Models in the Social Sciences

Emergent Theory Construction and Mathematical Models

Summary and Concluding Comments

APPENDIX 8A. SPSS Code for Exploring Distribution Properties

APPENDIX 8B. Additional Modeling Issues for the Performance, Motivation, and Ability Example

Suggested Readings

Key Terms

Exercises

9. Simulation as a Theory Development Method

Defining Simulations

The Uses of Research Simulations

The Difference between Simulation and Laboratory Experiments

Basic Simulation Varieties

All-Machine versus Person–Machine Simulations

Descriptive versus Analytic Simulations

Real-Time versus Compressed-Time versus Expanded-Time Simulations

Deterministic versus Nondeterministic Simulations

Free versus Experimental Simulations

Macro- versus Microsimulations

Content-Oriented Simulation

The Analysis of Criterion Systems as a Basis for Theory Construction

Simulation of Information Accessing in Consumer Purchase Decisions

Virtual Environments and Avatars

Simulations and Virtual Experiments

Agent-Based Modeling

Resources for Conducting Simulations

Summary and Concluding Comments

Suggested Readings

Key Terms

Exercises

10. Grounded and Emergent Theory

Grounded and Emergent Theory: An Overview

Positivism "versus" Constructivism

Framing the Problem

The Role of Past Literature

Collecting Qualitative Data

Archival Records

Direct Observation

Structured and Unstructured Interviews and Surveys

Focus Groups

Virtual Ethnographies

Directive Qualitative Methods

Mixed-Methods Research

Memo Writing

Theoretical Sampling

Analyzing and Coding Data

An Example from Anthropology

The Statistical Exploration of Relationships

Process Analysis in Emergent Theorizing

Moving to Theoretical Statements: Using Principles of Rhetoric

Deduction, Induction, and Abduction

Toulmin's Model of Argumentation

Weak Arguments

APPENDIX 10A. The Limits of Information Processing

Summary and Concluding Comments

Suggested Readings

Key Terms

Exercises

11. Historically Influential Systems of Thought

Grand Theories

Materialism

Structuralism

Functionalism

Symbolic Interactionism

Evolutionary Perspectives

Postmodernism: A Critical Commentary on Grand Theories

Frameworks Using Metaphors

Neural Networks

Systems Theory

Frameworks Emphasizing Stability and Change

Psychological Frameworks

Reinforcement Theories

Humanism and Positive Psychology

Frameworks Inspired by Methodology

Multilevel Modeling

Person-Centered Theorizing

Summary and Concluding Comments

Suggested Readings

Key Terms

Exercises

IV. Concluding Issues

12. Reading and Writing about Theories

Reading about Theories in Outlets Emphasizing Theory Tests and Confirmatory Approaches to Science

The Introduction Section

The Method Section

The Results Section

The Discussion Section

Reading about Theories in Outlets Emphasizing Grounded/Emergent Theory

Writing about Theories

How You Say It Can Be as Important as What You Say

Briefer Is Better, But Don't Be Too Brief

Prepare an Outline

Provide a Road Map

Provide a Succinct Review of the Current Knowledge

Discuss the Implications and Importance of Your Theory

Keep Your Target Audience in Mind

Using Figures

Cite Sources for Your Ideas, Text, and Related Items

Spelling, Grammar, Typos, and Punctuation

Grant Proposals, Technical Reports, and Presentations

Summary and Concluding Comments

Suggested Readings

Key Terms

Exercises

APPENDIX 12A. Inferring Theoretical Relationships from the Choice of Statistical Tests

13. Epilogue

Competing Theories

Post Hoc Theorizing

Influential Science

Careers and Creative Theorizing in Science

Scientific Paradigms

A Program of Self Study

Concluding Comments

Suggested Readings

Key Terms

Exercises

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Theory Construction and Model-Building Skills: A Practical Guide for Social Scientists 5 out of 5 based on 0 ratings. 1 reviews.
Anonymous More than 1 year ago
A very readable and creative book. Many good, practical suggestions for how to build a theory. Very thorough. Breadth is impressive.