In fact, any general term that is linear in n defines an arithmetic sequence.įind all terms in between a 1 = − 8 and a 7 = 10 of an arithmetic sequence. In general, given the first term a 1 of an arithmetic sequence and its common difference d, we can write the following:Ī 2 = a 1 + d a 3 = a 2 + d = ( a 1 + d ) + d = a 1 + 2 d a 4 = a 3 + d = ( a 1 + 2 d ) + d = a 1 + 3 d a 5 = a 4 + d = ( a 1 + 3 d ) + d = a 1 + 4 d ⋮įrom this we see that any arithmetic sequence can be written in terms of its first element, common difference, and index as follows:Ī n = a 1 + ( n − 1 ) d A r i t h m e t i c S e q u e n c e Here a 1 = 1 and the difference between any two successive terms is 2. For example, the sequence of positive odd integers is an arithmetic sequence, At the end of the first year you will have a total of: \ With simple interest, the key assumption is that you withdraw the interest from the bank as soon as it is paid and deposit it into a separate bank account.An arithmetic sequence A sequence of numbers where each successive number is the sum of the previous number and some constant d., or arithmetic progression Used when referring to an arithmetic sequence., is a sequence of numbers where each successive number is the sum of the previous number and some constant d.Ī n = a n − 1 + d A r i t h m e t i c S e q u e n c eĪnd because a n − a n − 1 = d, the constant d is called the common difference The constant d that is obtained from subtracting any two successive terms of an arithmetic sequence a n − a n − 1 = d. You are paid $15\%$ interest on your deposit at the end of each year (per annum). We refer to $£A$ as the principal balance. Simple and Compound Interest Simple Interest For example, \ so the sequence is neither arithmetic nor geometric. A series does not have to be the sum of all the terms in a sequence. The starting index is written underneath and the final index above, and the sequence to be summed is written on the right. We call the sum of the terms in a sequence a series. The Summation Operator, $\sum$, is used to denote the sum of a sequence. If the dots have nothing after them, the sequence is infinite. If the dots are followed by a final number, the sequence is finite. Note: The 'three dots' notation stands in for missing terms. is a finite sequence whose end value is $19$.Īn infinite sequence is a sequence in which the terms go on forever, for example $2, 5, 8, \dotso$. For example, $1, 3, 5, 7, 9$ is a sequence of odd numbers.Ī finite sequence is a sequence which ends. Contents Toggle Main Menu 1 Sequences 2 The Summation Operator 3 Rules of the Summation Operator 3.1 Constant Rule 3.2 Constant Multiple Rule 3.3 The Sum of Sequences Rule 3.4 Worked Examples 4 Arithmetic sequence 4.1 Worked Examples 5 Geometric Sequence 6 A Special Case of the Geometric Progression 6.1 Worked Examples 7 Arithmetic or Geometric? 7.1 Arithmetic? 7.2 Geometric? 8 Simple and Compound Interest 8.1 Simple Interest 8.2 Compound Interest 8.3 Worked Examples 9 Video Examples 10 Test Yourself 11 External Resources SequencesĪ sequence is a list of numbers which are written in a particular order.
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