Respuesta :

bear in mind that one can always get the common ratio by simply dividing any of the terms by the one before it namely, say 18÷12 or 27÷18.

[tex]\bf 12~~,~~\stackrel{12\cdot \frac{3}{2}}{18}~~,~~\stackrel{18\cdot \frac{3}{2}}{27}\qquad \qquad \stackrel{\textit{common ratio}}{r = \cfrac{3}{2}} \\\\[-0.35em] ~\dotfill[/tex]

[tex]\bf \qquad \qquad \textit{sum of a finite geometric sequence} \\\\ \displaystyle S_n=\sum\limits_{i=1}^{n}\ a_1\cdot r^{i-1}\implies S_n=a_1\left( \cfrac{1-r^n}{1-r} \right)\quad \begin{cases} n=\textit{last term's}\\ \qquad position\\ a_1=\textit{first term}\\ r=\textit{common ratio}\\ \cline{1-1} a_1=12\\ r=\frac{3}{2}\\ n=8 \end{cases}[/tex]

[tex]\bf S_8=12\left( \cfrac{1-\left( \frac{3}{2} \right)^8}{1-\frac{3}{2}} \right)\implies S_8=12\cdot \cfrac{\frac{-6305}{256}}{-\frac{1}{2}}\implies S_8=12\cdot \cfrac{6305}{128} \\\\[-0.35em] \rule{34em}{0.25pt}\\\\ ~\hfill S_8=\cfrac{18915}{32}~\hfill[/tex]

MathPhys

Answer:

591.09375

1/4

Step-by-step explanation:

"Find the sum of the first 8 terms of the geometric sequence that begins: 12, 18, 27,..."

The sum of the first n terms of a geometric sequence is:

S = a (1 − r^n) / (1 − r)

where a is the first term and r is the common ratio.

Here, the first term is 12, so a = 12.  The common ratio is 18/12 = 1.5.  So the sum of the first 8 terms is:

S = 12 (1 − 1.5^8) / (1 − 1.5)

S = 591.09375

"Find the sum of the infinite geometric sequence that begins 1/12, 1/18, 1/27,..."

The sum of an infinite geometric sequence is:

S = a / (1 − r)

Here, the first term is 1/12, so a = 1/12.  The common ratio is (1/18) / (1/12) = 2/3.  So the infinite sum is:

S = 1/12 / (1 − 2/3)

S = 1/4

Otras preguntas

ACCESS MORE
EDU ACCESS