14 NUMBER AND ALGEBRA| 3 z− 4 |>2 means 3z− 4 >2 and 3z− 4 <−2,
i.e. 3z>6 and 3z<2,
i.e. the inequality:| 3 z− 4 |>2 is satisfied whenz>2 andz<2
3Now try the following exercise.Exercise 9 Further problems on inequalities
involving a modulusSolve the following inequalities:- |t+ 1 |<4[− 5 <t<3]
- |y+ 3 |≤2[− 5 ≤y≤−1]
- | 2 x− 1 |< 4
[
−3
2<x<5
2]- | 3 t− 5 |>4[t>3 andt<
1
3]- | 1 −k|≥3[k≥4 andk≤−2]
2.4 Inequalities involving quotients
Ifp
q>0 thenp
qmust be apositivevalue.Forp
qto be positive,eitherpis positiveandqispositiveorpis negativeandqis negative.i.e.+
+=+and−
−=+Ifp
q<0 thenp
qmust be anegativevalue.Forp
qto be negative,eitherpis positiveandqisnegativeorpis negativeandqis positive.i.e.+
−=−and−
+=−This reasoning is used when solving inequalities
involving quotients, as demonstrated in the follow-
ing worked problems.
Problem 7. Solve the inequality:t+ 1
3 t− 6> 0Sincet+ 1
3 t− 6>0 thent+ 1
3 t− 6must bepositive.Fort+ 1
3 t− 6to be positive,either (i)t+ 1 > 0 and 3 t− 6 > 0
or (ii)t+ 1 < 0 and 3 t− 6 < 0
(i) Ift+ 1 >0 thent>−1 and if 3t− 6 >0 then
3 t>6 andt> 2
Bothof the inequalitiest>− 1 andt>2 are
only true whent>2,i.e. the fractiont+ 1
3 t− 6is positive whent> 2(ii) Ift+ 1 <0 thent<−1 and if 3t− 6 <0 then
3 t<6 andt< 2
Bothof the inequalitiest<− 1 andt<2 are
only true whent<−1,i.e. the fractiont+ 1
3 t− 6is positive whent<− 1Summarizing,t+ 1
3 t− 6>0 whent>2ort<− 1Problem 8. Solve the inequality:2 x+ 3
x+ 2≤ 1Since2 x+ 3
x+ 2≤1 then2 x+ 3
x+ 2− 1 ≤ 0i.e.2 x+ 3
x+ 2−x+ 2
x+ 2≤0,i.e.2 x+ 3 −(x+2)
x+ 2≤0orx+ 1
x+ 2≤ 0Forx+ 1
x+ 2to be negative or zero,either (i)x+ 1 ≤ 0 and x+ 2 > 0
or (ii)x+ 1 ≥ 0 and x+ 2 < 0
(i) Ifx+ 1 ≤0 thenx≤−1 and ifx+ 2 >0 then
x>− 2
(Note that>is used for the denominator, not≥;
a zero denominator gives a value for the fraction
which is impossible to evaluate.)Hence, the inequalityx+ 1
x+ 2≤0 is true whenxisgreater than−2 and less than or equal to−1,
which may be written as− 2 <x≤− 1(ii) Ifx+ 1 ≥0 thenx≥−1 and ifx+ 2 <0 then
x<− 2