Activities-Real numbers
Revision as of 11:05, 10 July 2014 by ganeshmath (talk | contribs) (→Case -1: x is an even integer)
Problem 1
- For every integer prove that x(x+1) is an even integer (Problem related to mathematical proofs in Chapter 1)
Approaches to solutions
The concepts that a pupil must know are
- What is an integer?
- What is an even integer?
- What is an odd integer?
- X and ( x+1) are consecutive integers and x(x+1) is the representation of the product
- Pupil should have the concept of distributive property of integers
- The pupil must have an opportunity for an arguement that the proof is true even of negative integers
- Pupil must have a sound understanding of Euclid's lemma
- The difference between mathematical proofs and Verification/Justification-the scope of mathematical proofs is beyond verification-Higher order skill in problem solving
Method -1: Solution by cases
Proposition: x is an integer. i.e., x=m, where m is an integer
Conclusion : x(x+1) is an even integer. i.e., x(x+1) =2K
Pupil can solve this in several ways viz., proofs by cases.
Case -1: x is an even integer
Then x=2k+0 = 2K, by Euclid's lemma
Discussion on Euclid's lemma: What is division? Discuss on the process of division rather than on the procedure of division. Consider the example . Is it (12-5)=7 then (7-5)=2
Discussion on Euclid's lemma: What is division? Discuss on the process of division rather than on the procedure of division. Consider the example . Is it (12-5)=7 then (7-5)=2
Abstract thinking:
b) a (q
-bq
(a - bq)