Two positive numbers x and y are such that x > y. If the difference of these numbers is 5 and their product is 24, find: i. Sum of these numbers ii. Difference of their cubes iii. Sum of their cubes.

Question

Two positive numbers x and y are such that x > y. If the difference of these numbers is 5 and their product is 24, find:

Sum of these numbers
Difference of their cubes
Sum of their cubes.

Sum

Solution

Given x - y = 5 and xy = 24 (x>y)

(x + y)²= (x - y)²+ 4xy

(x + y)²= 25 + 96

(x + y)²= 121

(x + y) = `sqrt121`

(x + y) = ±11

So, x + y = 11; sum of these numbers is 11.

Cubing on both sides gives

(x - y)³= 5³

x³- y³- 3xy(x - y) = 125

x³- y³- 72(5) = 125

x³- y³= 125 + 360

= 485

So, difference of their cubes is 485.

Cubing both sides, we get

(x + y)³= 11³

x³+ y³+ 3xy(x + y) = 1331

x³+ y³= 1331 - 72(11)

= 1331 - 792

= 539

So, sum of their cubes is 539.

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Expansion of (a + b)3

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Q 15 Q 14 Q 16

Chapter 4: Expansions (Including Substitution) - Exercise 4 (B) [Page 61]

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Selina Concise Mathematics [English] Class 9 ICSE

Chapter 4 Expansions (Including Substitution)
Exercise 4 (B) | Q 15 | Page 61

Two positive numbers x and y are such that x > y. If the difference of these numbers is 5 and their product is 24, find: i. Sum of these numbers ii. Difference of their cubes iii. Sum of their cubes.

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Two positive numbers x and y are such that x > y. If the difference of these numbers is 5 and their product is 24, find: i. Sum of these numbers ii. Difference of their cubes iii. Sum of their cubes.

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