Proofs using all 18 rules, from Hurley 9th ed. pp. 376-378 1. 1. Q > (F > A) 2. R > (A > F) 3. Q ∙ R / F ≡ A 2. 1. (J ∙ R) > H 2. (R > H) > M 3. ~(P v.

Slides:

Advertisements

Similar presentations

Integration by Substitution and by Parts

Advertisements

Logic & Critical Reasoning Translation into Propositional Logic.

“Teach A Level Maths” Vol. 2: A2 Core Modules

Creating Shortcuts for starting up an application 1 Tutorial: By David Butler.

1. (x) Ax > ( ∃ x) Bx 2. (x) ~Bx / ( ∃ x) ~Ax CQ of conclusion: ~(x) Ax CQ of line 2: ~ ( ∃ x) Bx 3. ~( ∃ x) Bx 4. ~(x) Ax.

“Teach A Level Maths” Vol. 2: A2 Core Modules

We develop the formula by considering how to differentiate products.

Arithmetic of random variables: adding constants to random variables, multiplying random variables by constants, and adding two random variables together.

Solving the eValue Rubik’s cube

LIMIT MENU Basic ideas and exercises ( Slides 2-6 ) Limits using a Calculator ( Slides 7-8 ) “  -  definition”, limit validation & properties” ( Slides.

Copyright © 2010 Pearson Education, Inc. Chapter 15 Probability Rules!

Order of Operations And Real Number Operations

Symbolic Logic Lesson CS1313 Spring Symbolic Logic Outline 1.Symbolic Logic Outline 2.What is Logic? 3.How Do We Use Logic? 4.Logical Inferences.

We want to prove the above statement by mathematical Induction for all natural numbers (n=1,2,3,…) Next SlideSlide 1.

MA 1128: Lecture 08 – 6/6/13 Linear Equations from Graphs And Linear Inequalities.

MAT 1000 Mathematics in Today's World. Last Time We talked about computing probabilities when all of the outcomes of a random phenomenon are “equally.

MA 1165: Special Assignment Completing the Square.

1 MAC 2313 CALC III Chapter 12 VECTORS and the GEOMETRY of SPACE THOMAS’ CALCULUS – EARLY TRANSCENDENTALS, 11 TH ED. Commentary by Doug Jones Revised Aug.

Essential Question: How do you know when a system is ready to be solved using elimination?

Adding and Subtracting FRACTIONS!!!!

There are two groups of Simple Machines Inclined Planes Wedge Screw Levers Lever Pulley Wheel and Axle.

Adding and Subtracting Fractions

6.1 Symbols and Translation

Copyright © Cengage Learning. All rights reserved.

Proof by Deduction. Deductions and Formal Proofs A deduction is a sequence of logic statements, each of which is known or assumed to be true A formal.

Solving Algebraic Equations

Unit 11, Part 2: Introduction To Logarithms. Logarithms were originally developed to simplify complex arithmetic calculations. They were designed to transform.

3 x 5 means… 3 “lots of” 5 3 x 5 means… 3 “lots of” = 15.

Unit 11, Part 2: Introduction To Logarithms. Logarithms were originally developed to simplify complex arithmetic calculations. They were designed to transform.

Consider the statement 1000 x 100 = We can rewrite our original statement in power (index) format as 10 3 x 10 2 = 10 5 Remembering (hopefully!)

DeMorgan’s Rule DM ~(p v q) :: (~p. ~q)“neither…nor…” is the same as “not the one and not the other” ~( p. q) :: (~p v ~q) “not both…” is the same as “either.

Mathematical Structures for Computer Science Chapter 1.2 Copyright © 2006 W.H. Freeman & Co.MSCS SlidesFormal Logic.

Goal: To understand Electro- magnetic fields Objectives: 1)To learn about Magnetic Fields 2)To be able to calculate the magnitude of Magnetic Forces 3)To.

Algebra Problems… Solutions Algebra Problems… Solutions © 2007 Herbert I. Gross Set 10 By Herbert I. Gross and Richard A. Medeiros next.

Transposition (p > q) : : ( ~ q > ~ p) Negate both statements when switching order of antecedent and consequent If the car starts, there’s gas in the tank.

Writing & Graphing Inequalities Learning Objective: To write and graph inequalities on the number line because I want to be able to represent situations.

Writing & Graphing Inequalities Learning Target: Today I am learning how to write and graph inequalities on the number line because I want to be able.

Natural Deduction Proving Validity. The Basics of Deduction  Argument forms are instances of deduction (true premises guarantee the truth of the conclusion).

From Truth Tables to Rules of Inference Using the first four Rules of Inference Modus Ponens, Modus Tollens, Hypothetical Syllogism and Disjunctive Syllogism.

Number System. Do not train children to learning by force and harshness, but direct them to it by what amuses their minds, so that you may be better able.

1 Introduction to Abstract Mathematics Expressions (Propositional formulas or forms) Instructor: Hayk Melikya

Solving Linear Inequalities Included in this presentation:  Solving Linear Inequalities  Solving Compound Inequalities  Linear Inequalities Applications.

Propositional Logic Symbolic logic If A, then B A  B Capital letters stand for simple sentences A simple sentence is an affirmative single statement “It’s.

Linear Vs. Holistic Sequential Vs. Random The left brain processes in sequence. The left brained person is a list maker. You complete tasks in order.

WHICH IS WHICH? WHAT CAN WE DO TO REMEMBER? Look at reflection, translation and rotation.

2. 1. G > T 2. (T v S) > K / G > K (G v H) > (S. T) 2. (T v U) > (C. D) / G > C A > ~(A v E) / A > F H > (I > N) 2. (H > ~I) > (M v N)

9DH August 2006 Rotation about a given point. & Writing the coordinates of the images. & Learning about how to draw the x and y axis. & Making mathematical.

Introduction to Logic Lecture 13 An Introduction to Truth Tables By David Kelsey.

Mathematics for Comter I Lecture 3: Logic (2) Propositional Equivalences Predicates and Quantifiers.

Today’s Topics Argument forms and rules (review)

Activity 1-12 : Multiple-free sets

1 Propositional Proofs 1. Problem 2 Deduction In deduction, the conclusion is true whenever the premises are true.  Premise: p Conclusion: (p ∨ q) 

An Introduction to Prime Factorization by Mrs. Gress

Modified Bessel Equations 홍성민. General Bessel Equation of order n: (1) The general solution of Eq.(1) Let’s consider the solutions of the 4.

Writing & Graphing Inequalities Learning Target: Today I am learning how to write and graph inequalities on the number line because I want to be able.

March 23 rd. Four Additional Rules of Inference  Constructive Dilemma (CD): (p  q) (r  s) p v r q v s.

Introduction To Logarithms

Solve Absolute Value Inequalities

Natural Deduction: Using simple valid argument forms –as demonstrated by truth-tables—as rules of inference. A rule of inference is a rule stating that.

Critical Reasoning Lecture 16 An Introduction to Truth Tables

{P} ⊦ Q if and only if {P} ╞ Q

Do Now: Pick up the calendar when you walk in

A v B ~ A B > C ~C B > (C . P) B / ~ B mt 1,2 / B ds 1,2

7.1 Rules of Implication I Natural Deduction is a method for deriving the conclusion of valid arguments expressed in the symbolism of propositional logic.

Hurley … Chapter 6.5 Indirect Truth Tables

Natural Deduction 1 Hurley, Logic 7.4.

1. (H . S) > [ H > (C > W)]

Sine Rule: Missing Sides

Transposition (p > q) : : ( ~ q > ~ p) Negate both statements

Chapter 8 Natural Deduction

Presentation transcript:

Proofs using all 18 rules, from Hurley 9th ed. pp Q > (F > A) 2. R > (A > F) 3. Q ∙ R / F ≡ A (J ∙ R) > H 2. (R > H) > M 3. ~(P v ~J) / M ∙ ~P F > (A ∙ K) 2. G > (~A ∙ ~K) 3. F v G / A ≡ K T > G 2. S > G / (T v S) > G Let’s walk through how to do these, one at a time.

1. Q > (F > A) 2. R > (A > F) 3. Q ∙ R / F ≡ A Start by thinking about the conclusion. It’s a bi-conditional, so there are two Rules of Equivalence that pertain. The last step will surely be EQ, rewriting one of them into a triple bar. So you should be able to see that the consequent of line 1, and the consequent of line 2, if joined together by a dot, would meet one of the versions of the EQ rule. That means that the task is to get those two consequents onto lines by themselves, so they can be joined together by the rule CN. What rule will deliver the consequent of a line on to a new line? MP What is the missing piece for an MP to 1?Q And Q can be got from line 3 by SM.CM and SM to 3 will get R, And that allows MP to line 2.

1. (J ∙ R) > H 2. (R > H) > M 3. ~(P v ~J) / M ∙ ~P Look at the conclusion and think about a likely candidate for the final step. Like CN? You’d shoot for getting M on one line, ~P on another, and then conjoining them. Hint: Whenever you spot the sort of thing we have here in Line 3, do DM to the line. DM will turn this from a negative wedge statement into a dot statement, which is much easier to do something to! 4. ~P. ~~J 3, DM 5. ~P. J 4, DN 6. ~P 5, SM Half the job is done. We have ~P. How to get M? GO for an MP to line 2, since M is the consequent of 2. The missing piece is R > H. Look at the rule called exportation, and look at line J > (R > H) 1 EXP 8. J 5, CM, SM 9. R > H MP 7,8 10.M MP 9, 2 11.M. ~P CN 6,10

1. F > (A ∙ K) 2. G > (~A ∙ ~K) 3. F v G / A ≡ K Like an earlier example, since the conclusion is a triple bar statement, the last move is probably going to be EQ. Do you see the pieces of the other version of EQ in the premises? The triple bar means: “Either both or neither” as well as meaning “is necessary and sufficient for.” Line 1 says “If F, then both A and K.” Line 2 says “If G, then neither A nor K.” Line 3 is the missing piece for a CD. 4. [F> (A. K)]. [G>(~A. ~K)] CN, 1,2 5. (A. K) v (~A. ~K) CD 3,4 6. A ≡ K EQ 5

1. T > G 2. S > G / (T v S) > G Here’s a chance to use IMP. IMP is extremely useful: it lets us rewrite wedges as horseshoes and vice versa. Whenever you do this, just change the left hand side by a tilde. This change is very intuitive: “We’ll either have soup or egg roll” means “We’ll have soup if we don’t have egg roll.” But you can’t CM horsehoes the way you can wedges. 3. ~T v G IMP 1 4. ~S v G IMP 2 Now we’ll use DIST, after putting 3 and 4 together 5. (~T v G). (~S v G) CN 3,4 6. (G v ~T). (G v ~S) CM 7. G v (~T. ~S) DIST 6 Now use IMP again and DM 8. ~G > ~(T v S) IMP, DM 7 And TRANS flips this over and reverses the tildes 9. (T v S) > G TRANS 8 This is much easier to do by Conditional Proof!