![]() ![]() ![]() ![]() An arithmetic series is referred to as a series developed by using an arithmetic sequence.Ģ, 5, 8, 11, 14,… is an arithmetic sequence with a common difference of 3, and 2 + 5 + 8 + 11 + 14 +… is the corresponding arithmetic series. Some of the most commonly used examples of sequences and series are:Īn arithmetic sequence is a sequence where each term of the sequence is formed either by adding or subtracting a common term from the preceding number, and the common term is called the common difference. Sequences and series are classified into different types. Role of Mahatma Gandhi in Freedom StruggleĪ finite arithmetic sequence: 3, 5, 7, 9, 11Īn infinite geometric sequence: 2, 4, 8, 16, …….Ī finite arithmetic series: 3 + 5 + 7 + 9+ 11Īn infinite geometric series: 2 + 4 + 8 + 16 + …….Therefore, a convergent geometric series An infinite geometric series where | r | < 1 whose sum is given by the formula: S ∞ = a 1 1 − r. If | r | < 1 then the limit of the partial sums as n approaches infinity exists and we can write, S n = a 1 ( 1 − r n ) 1 − r = a 1 1 − r ( 1 − r n ) Consider the nth partial sum of any geometric sequence, This is read, “the limit of ( 1 − r n ) as n approaches infinity equals 1.” While this gives a preview of what is to come in your continuing study of mathematics, at this point we are concerned with developing a formula for special infinite geometric series. Lim n → ∞ ( 1 − r n ) = 1 w h e r e | r | < 1 This illustrates the idea of a limit, an important concept used extensively in higher-level mathematics, which is expressed using the following notation: Here we can see that this factor gets closer and closer to 1 for increasingly larger values of n. If the common ratio r of an infinite geometric sequence is a fraction where | r | < 1 (that is − 1 < r < 1), then the factor ( 1 − r n ) found in the formula for the nth partial sum tends toward 1 as n increases. For example, to calculate the sum of the first 15 terms of the geometric sequence defined by a n = 3 n + 1, use the formula with a 1 = 9 and r = 3. In other words, the nth partial sum of any geometric sequence can be calculated using the first term and the common ratio. S n − r S n = a 1 − a 1 r n S n ( 1 − r ) = a 1 ( 1 − r n )Īssuming r ≠ 1 dividing both sides by ( 1 − r ) leads us to the formula for the nth partial sum of a geometric sequence The sum of the first n terms of a geometric sequence, given by the formula: S n = a 1 ( 1 − r n ) 1 − r, r ≠ 1. Subtracting these two equations we then obtain, R S n = a 1 r + a 1 r 2 + a 1 r 3 + … + a 1 r n Multiplying both sides by r we can write, S n = a 1 + a 1 r + a 1 r 2 + … + a 1 r n − 1 Therefore, we next develop a formula that can be used to calculate the sum of the first n terms of any geometric sequence. However, the task of adding a large number of terms is not. For example, the sum of the first 5 terms of the geometric sequence defined by a n = 3 n + 1 follows: is the sum of the terms of a geometric sequence. In fact, any general term that is exponential in n is a geometric sequence.Ī geometric series The sum of the terms of a geometric sequence. In general, given the first term a 1 and the common ratio r of a geometric sequence we can write the following:Ī 2 = r a 1 a 3 = r a 2 = r ( a 1 r ) = a 1 r 2 a 4 = r a 3 = r ( a 1 r 2 ) = a 1 r 3 a 5 = r a 3 = r ( a 1 r 3 ) = a 1 r 4 ⋮įrom this we see that any geometric sequence can be written in terms of its first element, its common ratio, and the index as follows:Ī n = a 1 r n − 1 G e o m e t r i c S e q u e n c e Here a 1 = 9 and the ratio between any two successive terms is 3. For example, the following is a geometric sequence, A geometric sequence A sequence of numbers where each successive number is the product of the previous number and some constant r., or geometric progression Used when referring to a geometric sequence., is a sequence of numbers where each successive number is the product of the previous number and some constant r.Ī n = r a n − 1 G e o m e t i c S e q u e n c eĪnd because a n a n − 1 = r, the constant factor r is called the common ratio The constant r that is obtained from dividing any two successive terms of a geometric sequence a n a n − 1 = r. ![]()
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