Quantitative Aptitude is one of the things that becomes a head
ache for students from non-technical background. However, the aptitude
questions asked in any of the exams like CSAT, SSC, IBPS etc are of very
moderate level. They require only practice & with a good strategy
anyone can master this section.
Here I am posting some tricks. Mix them with your practice &
try to acquaint with them to solve the questions in less time with same
accuracy
Finding number of Factors
To find the number of factors of a given number, express the
number as a product of powers of prime numbers.
In this case, 48 can be written as 16 * 3 = (24 * 3)
Now, increment the power of each of the prime numbers by 1 and
multiply the result.
In this case it will be (4 + 1)*(1 + 1) = 5 * 2 = 10 (the power of
2 is 4 and the power of 3 is 1)
Therefore, there will 10 factors including 1 and 48. Excluding,
these two numbers, you will have 10 – 2 = 8 factors.
Sum of n natural numbers
-> The sum of first n natural numbers = n (n+1)/2
-> The sum of squares of first n natural numbers is n
(n+1)(2n+1)/6
-> The sum of first n even numbers= n (n+1)
-> The sum of first n odd numbers= n^2
Finding Squares of numbers
To find the squares of numbers near numbers of which squares are
known
To find 41^2 , Add 40+41 to 1600 =1681
To find 59^2 , Subtract 60^2-(60+59) =3481
Finding number of Positive Roots
If an equation (i:e f(x)=0 ) contains all positive co-efficient of
any powers of x , it has no positive roots then.
Eg: x^4+3x^2+2x+6=0 has no positive roots .
Finding number of Imaginary Roots
For an equation f(x)=0 , the maximum number of positive roots it
can have is the number of sign changes in f(x) ; and the maximum number of
negative roots it can have is the number of sign changes in f(-x) .
Hence the remaining are the minimum number of imaginary roots of
the equation(Since we also know that the index of the maximum power of x is the
number of roots of an equation.)
Reciprocal Roots
The equation whose roots are the reciprocal of the roots of the
equation ax^2+bx+c is cx^2+bx+a
Roots
Roots of x^2+x+1=0 are 1,w,w^2 where 1+w+w^2=0 and w^3=1
Finding Sum of the roots
For a cubic equation ax^3+bx^2+cx+d=o sum of the roots = – b/a sum
of the product of the roots taken two at a time = c/a product of the roots =
-d/a
For a biquadratic equation ax^4+bx^3+cx^2+dx+e = 0 sum of the
roots = – b/a sum of the product of the roots taken three at a time = c/a sum
of the product of the roots taken two at a time = -d/a product of the roots =
e/a
Maximum/Minimum
-> If for two numbers x+y=k(=constant), then their PRODUCT
is MAXIMUM if x=y(=k/2). The maximum product is then (k^2)/4
-> If for two numbers x*y=k(=constant), then their SUM is
MINIMUM if x=y(=root(k)). The minimum sum is then 2*root(k) .
Inequalties
-> x + y >= x+y ( stands for absolute value or
modulus ) (Useful in solving some inequations)
-> a+b=a+b if a*b>=0 else a+b >= a+b
-> 2<= (1+1/n)^n <=3 -> (1+x)^n ~
(1+nx) if x<< When you multiply each side of the inequality by
-1, you have to reverse the direction of the inequality.
Product Vs HCF-LCM
Product of any two numbers = Product of their HCF and LCM . Hence
product of two numbers = LCM of the numbers if they are prime to each other.
AM GM HM
For any 2 numbers a>b
a>AM>GM>HM>b (where AM, GM ,HM stand for
arithmetic, geometric , harmonic menasa respectively) (GM)^2 = AM * HM
Sum of Exterior Angles
For any regular polygon , the sum of the exterior angles is equal
to 360 degrees hence measure of any external angle is equal to 360/n. ( where n
is the number of sides)
For any regular polygon , the sum of interior angles =(n-2)180
degrees
So measure of one angle in
Square—–=90
Pentagon–=108
Hexagon—=120
Heptagon–=128.5
Octagon—=135
Nonagon–=140
Decagon–=144
Problems on clocks
Problems on clocks can be tackled as assuming two runners going
round a circle , one 12 times as fast as the other . That is , the minute hand
describes 6 degrees /minute the hour hand describes 1/2 degrees /minute . Thus
the minute hand describes 5(1/2) degrees more than the hour hand per minute .
The hour and the minute hand meet each other after every 65(5/11)
minutes after being together at midnight. (This can be derived from the above)
.
Co-ordinates
Given the coordinates (a,b) (c,d) (e,f) (g,h) of a parallelogram ,
the coordinates of the meeting point of the diagonals can be found out by
solving for [(a+e)/2,(b+f)/2] =[ (c+g)/2 , (d+h)/2]
Ratio
If a1/b1 = a2/b2 = a3/b3 = ………….. , then each ratio is equal to
(k1*a1+ k2*a2+k3*a3+…………..) / (k1*b1+ k2*b2+k3*b3+…………..) , which is also equal
to (a1+a2+a3+…………./b1+b2+b3+……….)
Finding multiples
x^n -a^n = (x-a)(x^(n-1) + x^(n-2) + …….+ a^(n-1) ) ……Very useful
for finding multiples .For example (17-14=3 will be a multiple of 17^3 – 14^3)
Exponents
e^x = 1 + (x)/1! + (x^2)/2! + (x^3)/3! + ……..to infinity 2
<>GP
-> In a GP the product of any two terms equidistant from a
term is always constant .
-> The sum of an infinite GP = a/(1-r) , where a and r are
resp. the first term and common ratio of the GP .
Mixtures
If Q be the volume of a vessel q qty of a mixture of water and
wine be removed each time from a mixture n be the number of times this
operation be done and A be the final qty of wine in the mixture then ,
A/Q = (1-q/Q)^n
Some Pythagorean triplets:
3,4,5———-(3^2=4+5)
5,12,13——–(5^2=12+13)
7,24,25——–(7^2=24+25)
8,15,17——–(8^2 / 2 = 15+17 )
9,40,41——–(9^2=40+41)
11,60,61——-(11^2=60+61)
12,35,37——-(12^2 / 2 = 35+37)
16,63,65——-(16^2 /2 = 63+65)
20,21,29——-(EXCEPTION)
Function
Any function of the type y=f(x)=(ax-b)/(bx-a) is always of the
form x=f(y) .
Finding Squares
To find the squares of numbers from 50 to 59
For 5X^2 , use the formulae
(5X)^2 = 5^2 +X / X^2
Eg ; (55^2) = 25+5 /25 =3025
(56)^2 = 25+6/36 =3136
(59)^2 = 25+9/81 =3481
Successive Discounts
Formula for successive discounts
a+b+(ab/100)
This is used for successive discounts types of sums.like 1999
population increses by 10% and then in 2000 by 5% so the population in 2000 now
is 10+5+(50/100)=+15.5% more that was in 1999 and if there is a decrease then
it will be preceded by a -ve sign and likewise.
Rules of Logarithms:
-> loga(M)=y if and only if M=ay
-> loga(MN)=loga(M)+loga(N)
-> loga(M/N)=loga(M)-loga(N)
-> loga(Mp)=p*loga(M)
-> loga(1)=0-> loga(ap)=p
-> log(1+x) = x – (x^2)/2 + (x^3)/3 – (x^4)/4 ………to
infinity [Note the alternating sign ...Also note that the logarithm is with
respect to base e]
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