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Question
Answer the following:
Solve the following for x, where |x| is modulus function, [x] is greatest interger function, {x} is a fractional part function
|x2 − 9| + |x2 − 4| = 5
Solution
|x2 − 9| + |x2 − 4| = 5
Case 1: x < − 3
If x < − 3, then x2 > 9
∴ |x2 − 9| = x2 − 9 and |x2 − 4| = x2 − 4
∴ equation becomes,
∴ x2 − 9 + x2 − 4 = 5
∴ 2x2 = 18
∴ x2 = 9
∴ x = ± 3
But x < − 3, therefore x ≠ ± 3.
Case 2: − 3 ≤ x < − 2
If − 3 ≤ x < − 2, then 4 < x2 ≤ 9
∴ |x2 − 9| = 9 − x2 and |x2 − 4| = x2 − 4
∴ equation becomes,
9 − x2 + x2 − 4 = 5
∴ 5 = 5, which is true
∴ − 3 ≤ x < − 2 is the solution ...(1)
Case 3: − 2 ≤ x < 2
If − 2 ≤ x < 2, then 0 ≤ x2 < 4
∴ |x2 − 9| = 9 − x2 and |x2 − 4| = 4 − x2
∴ equation becomes,
9 − x2 + 4 − x2 = 5
∴ 2x2 = 8
∴ x2 = 4
∴ x = ± 2
But − 2 ≤ x < 2
∴ x ≠ 2
∴ x = − 2 is a solution ...(2)
Case 4: 2 ≤ x < 3
If 2 ≤ x < 3, then 4 ≤ x < 9
∴ |x2 − 9| = 9 − x2 and |x2 − 4| = x2 − 4
∴ equation becomes,
9 − x2 + x2 − 4 = 5
∴ 5 = 5, which is true
∴ 2 ≤ x < 3 is the solution ...(3)
Case 5: x ≥ 3
If x ≥ 3, then x2 ≥ 9
∴ |x2 − 9| = x2 − 9 and |x2 − 4| = x2 − 4
∴ equation becomes,
x2 − 9 + x2 − 4 = 5
∴ 2x2 = 18
∴ x2 = 9
∴ x = ± 3
But x ≥ 3, therefore x ≠ −3.
∴ x = 3 is a solution ...(4)
From (1), (2), (3) and (4),
the solution set = [− 3, − 2] ∪ [2, 3].
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