# Quant Boosters - Hemant Malhotra - Set 12

• Since we know both f(0) and f(2), we can find f(1).
f(1) = f(0) + f(2) = 7
f(2) = f(1) + f(3)
f(3) = f(2) – f(1)
= 6 – 7
= −1
Also, f(3) = f(2) + f(4)
f(4) = f(3) – f(2) = −7
Continuing in a similar way, we can find out
f(0) = 1
f(1) = 7
f(2) = 6
f(3) = −1
f(4) = −7
f(5) = −6
f(6) = 1
f(7) = 7 and so on
After every 6 integral values of x, f(x) repeats itself.
f(6) = f(12) = f(18 ) = f(24) = f(30) = f(36) = f(42) = f(48 ) = 1
f(49) = 7
f(50) = 6

• Q7) What is the maximum value for the equation -2x^2 + 12x + 15

• Q8) For the equation x^2 + 6x + |n| to have real roots, how many values can n take ?

• Q9) Find the solution set of the equation x^3 - 4x^2 + x + 6 > 0
a) (-1, 2)
b) (-1, 2) U (3, ∞)
c) (∞, -1) U (2, 3)
d) (-1, 2) U (2, 3)

• Q10) Find the largest value of t such that x^t + 1 divides 1 + x + x^2 + x^3 + ... + x^143

• Q11) If x + 1/x = 3 then find the value of x^4 + 1/x^4

• Q12) A father and his son are waiting at a bus stop in the evening. There is a lamp post behind them. The lamp post, the father and his son stand on the same straight line. The father observes that the shadows of his head and his son's head are incident at the same point on the ground. If the heights of the lamp post, the father and his son are 6 metres, 1.8 metres and 0.9 metres respectively, and the father is standing 2.1 metres away from the post then how far (in metres) is son standing form his father?

• Q13) For how many values of y, y(y + 4)(y + 6)(y + 8) < 300 is satisfied

• Q14) What is the minimum value of (p + q)(q + r)(r + p) if p, q and r are positive numbers

• Q15) Find the sum of the first 10 terms of the series 1, 2, 5, 12, 27 ...

• The given term can be written as (2-1), (4-2), (8 - 3), (16 - 4) and so on
so sum of first 10 terms will be = (2 + 4 + 8 + 16 + - - - - - ) - (1 + 2 +3 +4 +5 +6 +7 - - -)
2046 - 55 = 1991

• Q16) If 2x + 9y ≤ 90, x ≥ 0, y ≥ 0 and x & y are integers, find the total number of solutions

• Q17) x, y and z are real numbers such that -6 ≤ x ≤ -2, -4 ≤ y ≤ 4 and 3 ≤ z ≤ 7. If w = y/xz then which of the below options is necessarily true ?
a) 0 ≤ w ≤ 2
b) -1/2 ≤ w ≤ 1/2
c) -2/3 ≤ w ≤ 1/3
d) -2/3 ≤ w ≤ 2/3

• Q18) What is the maximum value of p for which the below equations have a unique value of x
(2x - p)^2 + y^2 + 32 = 0
3x^2 + y^2 - 16 = 0

• Q19) Sum of two natural numbers is 600 and their hcf is 15. How many such pairs are possible?

• Let numbers be 15a and 15b
so 15a + 15b = 600
so a + b = 40
so E(40)/2 will be number of pairs

Why E(40)/2 ?
E(40) means all numbers below 40 which are coprime to 40

Example- E(10) = 10 * 1/2 * 4/5 = 4
1, 3, 7, 9 - there are 4 numbers below 10 which are coprime to 10
2 pairs 1,9 and 3,7 whose sum is 10

• Q20) Which one of the following is a prime number?
(a) 999,991
(b) 999,973
(c) 999,983
(d) 1,000,001
(e) 7,999,973

• a) (10^3)^2 - 3^2 = (1003)(997)
b) (10^2)^3 - 3^3 divisible by (10^2 -3)= 97
d) (10^2)^3 + 1^3 divisible by 101
e) (2*10^2)^3 - 3^3 divisible by 200 -3 =197
so c) is prime

• Q21) N = 373839404142 ... 9192 (numbers from 37 to 92 written in order to form a number). Find the maximum value of k if the number N is perfectly divisible by 3^k

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