In a geometric sequence:
an = a1 ∙ rⁿ⁻¹
Sum of the first n terms of a geometric sequence:
Sn = a1 ∙ ( 1 − rⁿ ) / ( 1− r )
where
a1 = first term
r is the common ratio
In tis case
a1 = 2 , r = 2
so
Sn = a1 ∙ ( 1 − rⁿ ) / ( 1− r )
S199 = 2 ∙ ( 1 − 2¹⁹⁹ ) / ( 1− 2 )
S199 = 2 ∙ ( 1 − 2¹⁹⁹ ) / ( - 1 )
S199 = - 2 ∙ ( 1 − 2¹⁹⁹ ) = 1.6069380442589902755419620923412 ∙ 10⁶⁰
S200 = 2 ∙ ( 1 − 2²⁰⁰ ) / ( 1− 2 )
S200 = 2 ∙ ( 1 − 2²⁰⁰ ) / ( - 1 )
S200 = - 2 ∙ ( 1 − 2²⁰⁰ ) = 3.2138760885179805510839241846823 ∙ 10⁶⁰
S200 > S199
3.2138760885179805510839241846823 ∙ 10⁶⁰ > 1.6069380442589902755419620923412 ∙ 10⁶⁰
True
an = a ∙ rⁿ⁻¹
a200 = 2 ∙ 2¹⁹⁹ = 2²⁰⁰ = 1.6069380442589902755419620923412 ∙ 10⁶⁰
S200 > a200
3.2138760885179805510839241846823 ∙ 10⁶⁰ > 1.6069380442589902755419620923412 ∙ 10⁶⁰
True
S1 = a1
2 = 2
True
d. None of the other 3 statements here are False.
For the geometric series given by 2+4+8+... , which of the following statements is FALSE?
Select one:
a. S200>S199
b. S200>a200
c. S1=a1
d. None of the other 3 statements here are False.
1 answer
2 answers