09 సీక్వెన్సులు మరియు సిరీస్
వ్యాయామం 4
Question:
1/(1×2)+1/(2×3)+1/(3×4)+….
Answer:
Step 1: Rewrite the expression as 1/2 + 1/6 + 1/12 + ….
Step 2: Factor out the common denominator 1/2(1 + 1/3 + 1/6 + ….)
Step 3: Rewrite the expression as a geometric series 1/2(1 + r + r2 + r3 + ….)
Step 4: Calculate the sum of the series 1/2(1/(1-r))
Question:
Find the sum of the series up to n terms ;1×2×3+2×3×4+3×4×5+…………
Answer:
Step 1: The general term of the series can be written as Tn = n(n+1)(n+2).
Step 2: The sum of the series can be written as S = T1 + T2 + T3 + … + Tn.
Step 3: Substitute the value of Tn in the equation.
Step 4: S = 1(2)(3) + 2(3)(4) + 3(4)(5) + … + n(n+1)(n+2).
Step 5: Simplify the equation by factoring out the common terms.
Step 6: S = n(n+1)(n+2)(1 + 2 + 3 + … + n).
Step 7: Use the formula for the sum of an arithmetic progression to simplify the equation.
Step 8: S = n(n+1)(n+2) × (n(n+1))/2.
Step 9: Simplify the equation by factoring out the common terms.
Step 10: S = (n(n+1)(n+2))/2 × (n(n+1)).
Step 11: The sum of the series up to n terms is S = (n(n+1)(n+2))/2 × (n(n+1)).
Question:
Find nth term of the series 3×1^2,5×2^2,7×3^2,…..
Answer:
Step 1: Identify the pattern.
The pattern is 3×1^2, 5×2^2, 7×3^2, 9×4^2, 11×5^2, …
Step 2: Determine the common difference.
The common difference is 2.
Step 3: Find the nth term.
The nth term is (2n+1)×n^2.
Question:
Find the sum of the series : (5^2+6^2+7^2+…+20^2)
Answer:
Answer: Step 1: Find the first and last terms of the series: First term: 5^2 = 25 Last term: 20^2 = 400
Step 2: Calculate the number of terms in the series: Number of terms = Last term - First term + 1 = 400 - 25 + 1 = 376
Step 3: Calculate the sum of the series: Sum of the series = n/2[2a + (n-1)d] = 376/2[2(25) + (376-1)(1)] = 376/2[50 + 375] = 376/825[425] = 17,376
Question:
The sum of n terms of 1^2+(1^2+2^2)+(1^2+2^2+3^2)+….. A : n(n+a)(2n+1)/6 B : n(n+1)(2n−1)/6 C : n(n+1)2(n+2)1/12 D : (n^2(n+1)^2)1/12
Answer:
Answer: A : n(n+1)(2n+1)/6
Question:
Find the sum to n terms of the series whose nth term is n(n+4).
Answer:
Answer:
Step 1: Find the formula for the sum of the series. The formula for the sum of the series is S = (n/2)(2a + (n - 1)d), where a is the first term and d is the common difference.
Step 2: Substitute the values of a and d in the formula. In this case, a = n and d = 4, so the formula becomes S = (n/2)(2n + (n - 1)4).
Step 3: Simplify the formula to get the final answer. S = (n/2)(2n + 4n - 4) = (n/2)(6n - 4) = 3n^2 - 2n
Question:
Find the sum of n terms of the series whose nth term is : n^2+2^n
Answer:
Solution:
Step 1: Find the first term (a1)
a1 = 12 + 2^1
a1 = 14
Step 2: Find the common difference (d)
d = n2 + 2n - (n-1)2 + 2n-1
d = 2n
Step 3: Find the sum of n terms
Sn = n/2 [2a1 + (n-1)d]
Sn = n/2 [2(14) + (n-1)(2n)]
Sn = n/2 [28 + 2n2 - 2n]
Sn = n2 + n - 14
Question:
Find the sum of n terms of the series whose nth term is : (2n−1)^2
Answer:
Answer: Step 1: Write down the formula for the sum of n terms of a series: Sn = n/2[2a + (n-1)d]
Step 2: Substitute the values of a (first term) and d (common difference) in the formula: Sn = n/2[2(2*1-1)^2 + (n-1)(2-1)^2]
Step 3: Simplify the equation: Sn = n/2[4 + (n-1)1]
Step 4: Solve for Sn: Sn = n/2[n+3]
Hence, the sum of n terms of the series is Sn = n/2[n+3].
Question:
Find the sum of the series 3×8+6×11+9×14+…. to n terms.
Answer:
Step 1: Find the common difference between the terms.
The common difference between the terms is 3.
Step 2: Find the last term of the series.
Let n be the number of terms in the series.
The last term of the series will be (n-1) × (3 + 3 × (n-1)) = 3n2-3n+3.
Step 3: Find the sum of the series.
The sum of the series is given by the formula:
Sn = [n/2] × (a1 + an)
where a1 is the first term and an is the last term of the series.
In this case, a1 = 3 and an = 3n2-3n+3.
Therefore, the sum of the series is given by:
Sn = [n/2] × (3 + 3n2-3n+3)
Sn = [n/2] × (3n2-3n+6)
Sn = [n2/2] × (3n-3) + [n/2] × 6
Sn = (3n3-3n2)/2 + 3n
Therefore, the sum of the series 3×8+6×11+9×14+…. to n terms is (3n3-3n2)/2 + 3n.
Question:
The sum of the series 1+2×3+3×5+4×7+….. A : 915 B : 946 C : 945 D : 916
Answer:
- The series can be written as 1 + 2(3) + 3(5) + 4(7) + …
- The next two terms are 5(9) and 6(11).
- The sum of the series can be calculated by adding all the terms together: 1 + 2(3) + 3(5) + 4(7) + 5(9) + 6(11) = 945
Answer: C. 945
JEE స్టడీ మెటీరియల్ (గణితం)
01 సెట్లు
02 సంబంధాలు మరియు విధులు
03 త్రికోణమితి విధులు
04 గణిత ప్రేరణ సూత్రం
05 సంక్లిష్ట సంఖ్యలు మరియు చతుర్భుజ సమీకరణాలు
06 లీనియర్ అసమానతలు
07 ప్రస్తారణలు మరియు కలయికలు
08 ద్విపద సిద్ధాంతం
09 సీక్వెన్సులు మరియు సిరీస్
10 స్ట్రెయిట్ లైన్స్ వ్యాయామం
10 స్ట్రెయిట్ లైన్స్ ఇతరాలు
11 కోనిక్ విభాగాలు
12 త్రీ డైమెన్షనల్ జామెట్రీకి పరిచయం
13 పరిమితులు మరియు ఉత్పన్నాలు
14 గణిత రీజనింగ్
15 గణాంకాలు
16 సంభావ్యత