Advertisements
Advertisements
प्रश्न
The ratio of the sum of the first three terms to that of the first 6 terms of a G.P. is 125 : 152. Find the common ratio.
The ratio of the sum of the first three terms to the sum of the first six terms of a G.P. is 125 : 152. Find the common ratio of G.P.
Advertisements
उत्तर
Let a be the first term and r be the common ratio of the G.P.
\[\therefore S_3 = a\left( \frac{r^3 - 1}{r - 1} \right) \text { and }S_6 = a\left( \frac{r^6 - 1}{r - 1} \right)\]
Then, according to the question
\[ \frac{S_3}{S_6} = \frac{a\left( \frac{r^3 - 1}{r - 1} \right)}{a \left( \frac{r^6 - 1}{r - 1} \right)} \]
\[ \Rightarrow \frac{125}{152} = \frac{r^3 - 1}{r^6 - 1}\]
\[ \Rightarrow 125 \left( r^6 - 1 \right) = 152 \left( r^3 - 1 \right)\]
\[ \Rightarrow 125 r^6 - 125 = 152 r^3 - 152\]
\[ \Rightarrow 125 r^6 - 152r {}^3 + 27 = 0\]
\[\text { Now, let } r^3 = y \]
\[ \therefore 125 y^2 - 152y + 27 = 0\]
Now, applying the quadratic formula
\[y = \left\{ \frac{- b \pm \sqrt{b^2 - 4ac}}{2a} \right\} \]
\[ \Rightarrow y = \left\{ \frac{152 \pm \sqrt{9604}}{250} \right\}\]
\[ \Rightarrow y = \left\{ \frac{152 + \sqrt{9604}}{250} \right\} or \left\{ \frac{152 - \sqrt{9604}}{250} \right\}\]
\[ \Rightarrow y = 1 \text { or } \frac{27}{125}\]
\[ \therefore r^3 = 1\text { or } r^3 = \frac{27}{125}\]
But, r = 1 is not possible
\[ \therefore r = \sqrt[3]{\frac{27}{125}} = \frac{3}{5}\]
संबंधित प्रश्न
The 4th term of a G.P. is square of its second term, and the first term is –3. Determine its 7thterm.
Find the value of n so that `(a^(n+1) + b^(n+1))/(a^n + b^n)` may be the geometric mean between a and b.
Find:
the 10th term of the G.P.
\[- \frac{3}{4}, \frac{1}{2}, - \frac{1}{3}, \frac{2}{9}, . . .\]
Find :
the 12th term of the G.P.
\[\frac{1}{a^3 x^3}, ax, a^5 x^5 , . . .\]
Which term of the G.P. :
\[2, 2\sqrt{2}, 4, . . .\text { is }128 ?\]
Find the 4th term from the end of the G.P.
\[\frac{1}{2}, \frac{1}{6}, \frac{1}{18}, \frac{1}{54}, . . . , \frac{1}{4374}\]
Find three numbers in G.P. whose sum is 65 and whose product is 3375.
Find the sum of the following geometric progression:
2, 6, 18, ... to 7 terms;
Find the sum of the following geometric progression:
4, 2, 1, 1/2 ... to 10 terms.
Find the sum of the following geometric series:
\[\frac{a}{1 + i} + \frac{a}{(1 + i )^2} + \frac{a}{(1 + i )^3} + . . . + \frac{a}{(1 + i )^n} .\]
Evaluate the following:
\[\sum^{11}_{n = 1} (2 + 3^n )\]
Evaluate the following:
\[\sum^n_{k = 1} ( 2^k + 3^{k - 1} )\]
A person has 2 parents, 4 grandparents, 8 great grandparents, and so on. Find the number of his ancestors during the ten generations preceding his own.
Find the sum of the following serie to infinity:
8 + \[4\sqrt{2}\] + 4 + ... ∞
Find the sum of the following serie to infinity:
`2/5 + 3/5^2 +2/5^3 + 3/5^4 + ... ∞.`
Find the sum of the following series to infinity:
10 − 9 + 8.1 − 7.29 + ... ∞
Find the sum of the following series to infinity:
`1/3+1/5^2 +1/3^3+1/5^4 + 1/3^5 + 1/56+ ...infty`
Find the rational number whose decimal expansion is `0.4bar23`.
If S denotes the sum of an infinite G.P. S1 denotes the sum of the squares of its terms, then prove that the first term and common ratio are respectively
\[\frac{2S S_1}{S^2 + S_1}\text { and } \frac{S^2 - S_1}{S^2 + S_1}\]
The sum of three numbers which are consecutive terms of an A.P. is 21. If the second number is reduced by 1 and the third is increased by 1, we obtain three consecutive terms of a G.P. Find the numbers.
If a, b, c, d are in G.P., prove that:
(a + b + c + d)2 = (a + b)2 + 2 (b + c)2 + (c + d)2
If a, b, c, d are in G.P., prove that:
\[\frac{1}{a^2 + b^2}, \frac{1}{b^2 - c^2}, \frac{1}{c^2 + d^2} \text { are in G . P } .\]
If a, b, c are in A.P., b,c,d are in G.P. and \[\frac{1}{c}, \frac{1}{d}, \frac{1}{e}\] are in A.P., prove that a, c,e are in G.P.
Insert 6 geometric means between 27 and \[\frac{1}{81}\] .
Insert 5 geometric means between \[\frac{32}{9}\text{and}\frac{81}{2}\] .
Find the geometric means of the following pairs of number:
a3b and ab3
If A1, A2 be two AM's and G1, G2 be two GM's between a and b, then find the value of \[\frac{A_1 + A_2}{G_1 G_2}\]
If a = 1 + b + b2 + b3 + ... to ∞, then write b in terms of a.
The sum of an infinite G.P. is 4 and the sum of the cubes of its terms is 92. The common ratio of the original G.P. is
If the sum of first two terms of an infinite GP is 1 every term is twice the sum of all the successive terms, then its first term is
The product (32), (32)1/6 (32)1/36 ... to ∞ is equal to
Check whether the following sequence is G.P. If so, write tn.
1, –5, 25, –125 …
Check whether the following sequence is G.P. If so, write tn.
3, 4, 5, 6, …
For the G.P. if a = `2/3`, t6 = 162, find r.
Find three numbers in G.P. such that their sum is 21 and sum of their squares is 189.
Find four numbers in G.P. such that sum of the middle two numbers is `10/3` and their product is 1
For the following G.P.s, find Sn
0.7, 0.07, 0.007, .....
For a G.P. If t3 = 20 , t6 = 160 , find S7
If the common ratio of a G.P. is `2/3` and sum to infinity is 12. Find the first term
Find : `sum_("r" = 1)^oo 4(0.5)^"r"`
If the A.M. of two numbers exceeds their G.M. by 2 and their H.M. by `18/5`, find the numbers.
Answer the following:
For a G.P. if t2 = 7, t4 = 1575 find a
If the pth and qth terms of a G.P. are q and p respectively, show that its (p + q)th term is `(q^p/p^q)^(1/(p - q))`
If pth, qth, and rth terms of an A.P. and G.P. are both a, b and c respectively, show that ab–c . bc – a . ca – b = 1
The sum of the infinite series `1 + 5/6 + 12/6^2 + 22/6^3 + 35/6^4 + 51/6^5 + 70/6^6 + ....` is equal to ______.
For an increasing G.P. a1, a2 , a3 ........., an, if a6 = 4a4, a9 – a7 = 192, then the value of `sum_(i = 1)^∞ 1/a_i` is ______.
The sum of infinite number of terms of a decreasing G.P. is 4 and the sum of the terms to m squares of its terms to infinity is `16/3`, then the G.P. is ______.
