Therefore there are four distinct pairs, that
satisfy the simultaneous equations.6.Sol: In general ,we obtain , for n n^3 ( 1) ...^3
2 1^33 and n even , the formula is(^2) 3 3 3 3
1 1
( 1) (2 ) (2 1)
m m
n n
n n n
2
112 6 1mnn n
2
112 12 6 1mnn n n
124 2 6 1 1mnn n
1 1
24 6
3 2m m
m
m m[4( 1)( 1) 3( 1) 1] m m
m m^2 (4 3)
which is divisible by m^2 .Since 2m = 2014, we
get m =1007. Therefore summation is divisible
by 1007^2.
7.Sol: Given
(^) 2 4 8 328a b c
We know 328 8 41 , which is RHS-of the
equation can be factored so LHS. That is
2 (1 2a ^2 b a 2 ) 8 41^3 c a
which yields a = 3. Now we have
1 2 ^2 b a 23 c a 41
i.e., 2 2 3b 2 3 3c 40
Again we can see RHS- of the equation is
8 5 , so LHS can be factored.
i.e., 2 (1 23 3c 2 3 3 3)b c 8 5
Which yields c = 2. Finally we have
1 2 2 3 6 3b 5
i.e., 2 2 6b 4
which yields b = 4. Now we have
2 3 3 8 6 17
3 4 2 24
a b c
abc
8.Sol: We know sum of interior angles of a
polygon of n - sides is( 2)n . Therefore the
sum of interior angles of 10 sides polygon is
8 . Since it has 8 180 , in which we have
7 are greater than 180 . Therefore, maximum
possible value of k is 7.
9.Sol: It happens, for the choices of the arguments
of the radicals in this problem, that we can
make this a bit less of a headache to think
about by noting that setting u x 1 i.e.,
u x^2 1 reduces the original equation to
6.Sol:
7.Sol:
8.Sol:
9.Sol:
10.Sol:
( 4) 4u^2 u ( 9) 6 1u^2 u
u 2 u 3 1
Since these terms must be positive or zero,
we can choose, say, u 2 a and u 3 1
a, with 0 a 1. Two of the possible
equations, u 2 a and 3 u 1 a produce
u 2 a, while using 2 u a implies that
u 2 a or u 3 1 a implies that
u 4 a are not mutually consistent results.
So we have the single interval
0 a 1
implies that
2 u 2 a 3
From this, we have
4 u x^2 1 9
implies that
5 x 10
10.Sol: Rewrite the given equation as
log log
log log
b a
c
a b
Since, a b, 1 so log 0a. Put
log
logb
t
a andrewriting the above equation as
1
t c
t but we have(^21)
2
t
t
. i.e., c 2. Therefore