Deductive Reasoning: A Literary Device

Deductive reasoning, as a literary device, refers to the logical process of deriving specific conclusions from general principles or premises presented within a narrative.

Deductive Reasoning: Etymology

The term “deductive reasoning” has its roots in Latin and can be broken down etymologically as follows:

  1. Deductus (Latin): The past participle of the verb “deducere,” which means “to lead down” or “to lead away.” This verb is a compound of “de” (down from) and “ducere” (to lead).
  2. Ratio (Latin): Meaning “reason” or “reckoning.”

Hence, “deductive reasoning” essentially involves leading down from general principles to specific conclusions based on logical reasoning or inference. It is a method of reasoning in which one starts with a set of general principles or premises and derives specific conclusions from them. This contrasts with inductive reasoning, where specific observations or examples are used to form general principles.

Deductive Reasoning: Definition as a Literary Device

Deductive reasoning, as a literary device, refers to the logical process of deriving specific conclusions from general principles or premises presented within a narrative.

It involves constructing a chain of reasoning where the validity of each step ensures the soundness of the final inference, contributing to a cohesive and structured plot development.

This method of argumentation enhances narrative coherence by guiding readers through a thoughtfully organized progression of ideas, fostering a deeper engagement with the storyline.

Deductive Reasoning: Types
TypeExplanationExample
Categorical SyllogismThis type involves drawing conclusions based on two premises that contain a common term, facilitating the deduction of a relationship between categories.Premise 1: All humans are mortal. Premise 2: Socrates is a human. Conclusion: Therefore, Socrates is mortal.
Hypothetical SyllogismIn this form of deductive reasoning, a conclusion is derived from two conditional statements, where the conclusion of the first serves as the premise of the second.Premise 1: If it rains, the picnic will be canceled. Premise 2: It is raining. Conclusion: Therefore, the picnic is canceled.
Disjunctive SyllogismDeduction in this type involves presenting a limited number of possibilities and excluding one or more, ultimately leading to a specific conclusion.Premise: The car won’t start due to either a dead battery or an empty gas tank. Observation: The gas tank is not empty. Conclusion: Therefore, the car won’t start because of a dead battery.
Mathematical DeductionWidely used in mathematics, this form of deductive reasoning involves deriving specific mathematical conclusions from general axioms or theorems through logical steps.Given: A = B and B = C. Conclusion: Therefore, A = C.
Legal ReasoningIn the legal context, deductive reasoning is employed to draw conclusions about specific cases based on established legal principles, statutes, and precedents.Premise: The law prohibits theft. Observation: John stole a wallet. Conclusion: Therefore, John has violated the law by committing theft.
Propositional LogicDeductive reasoning in propositional logic involves manipulating and combining statements using logical connectives to deduce new propositions.Premise 1: If it is raining (P), then the ground is wet (Q). Premise 2: It is raining (P). Conclusion: Therefore, the ground is wet (Q).

These examples illustrate how each type of deductive reasoning operates in various contexts, demonstrating its practical application in reasoning and argumentation.

Deductive Reasoning: Use in Everyday Life Examples
ExamplePremisesConclusion
1. Morning RoutineIf I set the alarm clock, then I will wake up on time. I set the alarm clock.Therefore, I will wake up on time.
2. Grocery ShoppingIf an item is on my shopping list, then I need to buy it. Apples are on my shopping list.Therefore, I need to buy apples.
3. Traffic ExpectationsIf it’s rush hour, then there will be heavy traffic. It is rush hour.Therefore, there will be heavy traffic.
4. Cooking DinnerIf I follow the recipe, then the dish will turn out well. I am following the recipe.Therefore, the dish will turn out well.
5. Mail DeliveryIf it’s a weekday, then the mail will be delivered. Today is a weekday.Therefore, the mail will be delivered.
6. Work AttendanceIf I set my alarm and wake up on time, then I will go to work. I set my alarm and woke up on time.Therefore, I will go to work.
7. Study OutcomesIf I review my notes before the exam, then I will perform well. I reviewed my notes.Therefore, I will perform well on the exam.
8. Fitness GoalsIf I exercise regularly, then I will be in better shape. I exercise regularly.Therefore, I am in better shape.
9. Public TransportationIf the bus schedule indicates a departure at 9:00 AM, then the bus will leave at that time. The schedule says the bus departs at 9:00 AM.Therefore, the bus will leave at 9:00 AM.
10. Pet CareIf I feed the cat at 6:00 PM every day, then the cat will expect to be fed at that time. It is 6:00 PM.Therefore, the cat expects to be fed.

These examples showcase how deductive reasoning is applied in various daily scenarios to draw logical conclusions based on general principles and specific observations.

Deductive Reasoning: Suggested Readings
  1. Johnson, Robert. A Logic Book: Fundamentals of Reasoning. Wadsworth Publishing, 2017.
  2. Baronett, Stan. Logic. Oxford University Press, 2018.
  3. Hurley, Patrick J. A Concise Introduction to Logic. Cengage Learning, 2016.
  4. Copi, Irving M. and Carl Cohen. Introduction to Logic. Pearson, 2017.
  5. Bergmann, Merrie, James Moor, and Jack Nelson. The Logic Book. McGraw-Hill Education, 2019.
  6. Sainsbury, R. M. Logical Forms: An Introduction to Philosophical Logic. Wiley-Blackwell, 2019.
  7. Copi, Irving M., Carl Cohen, and Kenneth McMahon. Introduction to Logic. Pearson, 2017.
  8. Epstein, Richard L. Critical Thinking. Cengage Learning, 2016.
  9. Paul, Richard, and Linda Elder. Critical Thinking: The Nature of Critical and Creative Thought. Rowman & Littlefield, 2013.
  10. Resnik, Michael D. Choices: An Introduction to Decision Theory. University of Minnesota Press, 1987.