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Worksheet: Finding the nth Term of an Arithmetic Sequence, Set 14

Worksheet: Finding the nth Term of an Arithmetic Sequence, Set 14

Topic

Sequences and Series

Description

Set 14 of this worksheet series presents students with highly challenging problems related to finding the nth term of arithmetic sequences. The theory behind this concept is based on the principle of constant difference between consecutive terms. The formula an = a + (n - 1)d encapsulates this concept, where a is the initial term, n is the term number, and d is the common difference. This algebraic representation allows us to model linear growth or decay in a concise, powerful way.

This understanding is vital in various fields. In physics, it can model uniform motion or constant acceleration. In social sciences, it can represent steady demographic changes or linear trends in public opinion polls. In computer programming, it's crucial for loop structures and certain algorithms.

Teacher's Script: "Consider a complex scenario where we know the 4th term of a sequence is 13 and the 10th term is 37. To find the nth term, we first calculate the common difference: (37 - 13) ÷ (10 - 4) = 4. Now, using the 4th term, we can find the first term: 13 = a + (4 - 1)4, so a = 1. Our general formula is thus an = 1 + (n - 1)4 = 4n - 3. This example shows how we can derive the formula even when we're not given the first term directly!"

For a complete collection of terms related to Sequences and Series click on this link: Finding the nth Term of an Arithmetic Sequence Worksheet Collection.

Common Core Standards CCSS.MATH.CONTENT.HSF.BF.A.2
Grade Range 9 - 12
Curriculum Nodes Algebra
    • Sequences and Series
        • Sequences
Copyright Year 2015
Keywords arithmetic sequence, finding the nth term of an arithmetic sequence