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MCQs Math

Question:     Find the average of even numbers from 6 to 1408

Correct Answer  707

Solution And Explanation

Solution

Method (1) to find the average of the even numbers from 6 to 1408

Shortcut Trick to find the average of the given continuous even numbers

The even numbers from 6 to 1408 are

6, 8, 10, . . . . 1408

After observing the above list of the even numbers from 6 to 1408 we find that the difference between two consecutive terms are equal. This means the list of the even numbers from 6 to 1408 form an Arithmetic Series.

In the Arithmetic Series of the even numbers from 6 to 1408

The First Term (a) = 6

The Common Difference (d) = 2

And the last term (ℓ) = 1408

The average of the numbers forming an Arithmetic Series

= ^{The first term (a) + The last term (ℓ)}/₂

⇒ The average of numbers forming an Arithmetic Series = ^{a + ℓ}/₂

Thus, the average of the even numbers from 6 to 1408

= ^{6 + 1408}/₂

= ¹⁴¹⁴/₂ = 707

Thus, the average of the even numbers from 6 to 1408 = 707 Answer

Method (2) to find the average of the even numbers from 6 to 1408

Finding the average of given continuous even numbers after finding their sum

The even numbers from 6 to 1408 are

6, 8, 10, . . . . 1408

The even numbers from 6 to 1408 form an Arithmetic Series in which

The First Term (a) = 6

The Common Difference (d) = 2

And the last term (ℓ) = 1408

The Average of the given numbers

= ^{Sum of the given numbers}/_{Total number of given numbers}

Thus, to find the average of the given numbers, first, we need to find their sum and the total number of given numbers

Finding the number of terms

For an Arithmetic Series, the n^th term

a_n = a + (n – 1) d

Where

a = First term

d = Common difference

n = number of terms

a_n = n^th term

Thus, for the given series of the even numbers from 6 to 1408

1408 = 6 + (n – 1) × 2

⇒ 1408 = 6 + 2 n – 2

⇒ 1408 = 6 – 2 + 2 n

⇒ 1408 = 4 + 2 n

After transposing 4 to LHS

⇒ 1408 – 4 = 2 n

⇒ 1404 = 2 n

After rearranging the above expression

⇒ 2 n = 1404

After transposing 2 to RHS

⇒ n = ¹⁴⁰⁴/₂

⇒ n = 702

Thus, the number of terms of even numbers from 6 to 1408 = 702

This means 1408 is the 702^th term.

Finding the sum of the given even numbers from 6 to 1408

The sum of all terms (S) in an Arithmetic Series

= ⁿ/₂ (a + ℓ)

Where, n = number of terms

a = First term

And, ℓ = Last term

Thus, the sum of all terms (S) of the given even numbers from 6 to 1408

= ⁷⁰²/₂ (6 + 1408)

= ⁷⁰²/₂ × 1414

= ^{702 × 1414}/₂

= ⁹⁹²⁶²⁸/₂ = 496314

Thus, the sum of all terms of the given even numbers from 6 to 1408 = 496314

And, the total number of terms = 702

Since, the average of the given numbers

= ^{Sum of the given numbers}/_{Total number of given numbers}

Thus, the average of the given even numbers from 6 to 1408

= ⁴⁹⁶³¹⁴/₇₀₂ = 707

Thus, the average of the given even numbers from 6 to 1408 = 707 Answer

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