Grade 11 Exam > Grade 11 Notes > Mathematics for Grade 11 > Important Questions: Principles of Mathematical Induction
Important Questions: Principles of Mathematical Induction | Mathematics for Grade 11 PDF Download
Q1: Prove that 1 + 3 + 5 + … + (2n – 1) = n2 using the principle of mathematical induction.
Ans: Given Statement: 1 + 3 + 5 + … + (2n – 1) = n2
Assume that P(n) : 1 + 3 + 5 +…+ (2n – 1) = n2 , for n ∈ N
Note that P(1) is true, since
P(1) : 1 = 12
Let P(k) is true for some k ∈ N,
It means that,
P(k) : 1 + 3 + 5 + … + (2k – 1) = k2
To prove that P(k + 1) is true, we have
1 + 3 + 5 + … + (2k – 1) + (2k + 1)
= k2 + (2k + 1)
= k2 + 2k + 1
By using the formula, the above form can be written as:
= (k + 1)2
Hence, P(k + 1) is true, whenever P(k) is true.
Therefore, P(n) is true for all n ∈ N is proved by the principle of mathematical induction.
Q2: Prove that 2n > n for all positive integers n by the Principle of Mathematical Induction
Ans: Assume that P(n): 2n > n
If n =1, 21>1. Hence P(1) is true
Let us assume that P(k) is true for any positive integer k,
It means that, i.e.,
2k > k …(1)
We shall now prove that P(k +1) is true whenever P(k) is true.
Now, multiplying both sides of the equation (1) by 2, we get
2. 2k > 2k
Now by using the property,
i.e., 2k+1> 2k = k + k > k + 1
Hence, P(k + 1) is true when P(k) is true.
Therefore, P(n) is true for every positive integer n is proved using the principle of mathematical induction.
Q3: Show that 1 × 1! + 2 × 2! + 3 × 3! + … + n × n! = (n + 1)! – 1 for all natural numbers n by the Principle of Mathematical Induction.
Ans: Assume that P(n) be the given statement, that is
P(n) : 1 × 1! + 2 × 2! + 3 × 3! + … + n × n! = (n + 1)! – 1 for all natural numbers n.
It is noted that P (1) is true, since
P (1) : 1 × 1! = 1 = 2 – 1 = 2! – 1.
Let P(n) is true for some natural number k,
It means that
P(k) : 1 × 1! + 2 × 2! + 3 × 3! + … + k × k! = (k + 1)! – 1
Inorder to prove P (k + 1) is true, we have
P (k + 1) : 1 × 1! + 2 × 2! + 3 × 3! + … + k × k! + (k + 1) × (k + 1)!
= (k + 1)! – 1 + (k + 1)! × (k + 1)
Now, simplify the above form, we get
= (k + 1 + 1) (k + 1)! – 1 = (k + 2) (k + 1)! – 1 = ((k + 2)! – 1
Therefore, P (k + 1) is true, whenever P (k) is true.
Hence, P(n) is true for all natural number n is proved using the Principle of Mathematical Induction.
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FAQs on Important Questions: Principles of Mathematical Induction - Mathematics for Grade 11
| 1. What is the principle of mathematical induction? |  |
Ans. The principle of mathematical induction is a method used to prove that a statement is true for all natural numbers. It consists of two steps: the base case, where the statement is verified for the first natural number, and the induction step, where it is shown that if the statement is true for a particular natural number, then it must also be true for the next natural number.
| 2. How is mathematical induction different from other proof techniques? | |
Ans. Mathematical induction is a specific type of proof technique used to prove statements about natural numbers. It differs from other proof techniques, such as direct proof or proof by contradiction, as it relies on the concept of an inductive step to establish the truth of a statement for all natural numbers.
| 3. Can you provide an example of a proof using mathematical induction? | |
Ans. Certainly! Let's consider the statement: "For every natural number n, the sum of the first n odd numbers is n^2."
To prove this statement using mathematical induction, we would:
1. Verify the base case: For n = 1, the sum of the first odd number (1) is indeed equal to 1^2.
2. Assume the statement is true for some k: We assume that the sum of the first k odd numbers is k^2.
3. Prove the statement for k+1 using the induction hypothesis: We show that the sum of the first (k+1) odd numbers is equal to (k+1)^2.
By applying the induction hypothesis and simplifying the equation, we can establish the truth of the statement for all natural numbers.
| 4. What are the limitations of mathematical induction? | |
Ans. While mathematical induction is a powerful proof technique, it does have some limitations. One limitation is that it can only be applied to statements involving natural numbers. It cannot be used for proving statements about real numbers or other mathematical objects. Additionally, mathematical induction requires a clear base case and a well-defined inductive step, which may not always be straightforward to establish.
| 5. Are there variations of mathematical induction? | |
Ans. Yes, there are variations of mathematical induction. Two common variations include strong induction and weak induction. Strong induction allows for assuming the truth of the statement for all natural numbers up to the current one being considered, whereas weak induction only assumes the truth for the previous natural number. Both variations follow similar steps but have different assumptions in the induction step. The choice between strong and weak induction depends on the nature of the statement being proven.
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