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776 |
Prove that  = 2[cosx + cos3x + cos5x + … + cos(2k−1)x] for any positive integer k. Hence prove that  = 
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IIT 1990 |
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|
777 |
The function
f(x) =|px – q| + r |x|, x ε (− , )
where p > 0, q > 0, r > 0 assumes minimum value on one point if a) p ≠ q b) r = q c) r ≠ p d) r = p = q
The function
f(x) =|px – q| + r |x|, x ε (−, )
where p > 0, q > 0, r > 0 assumes minimum value on one point if a) p ≠ q b) r = q c) r ≠ p d) r = p = q
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IIT 1995 |
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778 |
Let f : R → R be any function defined g : R → R by g (x) = |f (x)| for all x. Then g is a) onto if f is onto b) one to one if f is one to one c) continuous if f is continuous d) differentiable if f is differentiable
Let f : R → R be any function defined g : R → R by g (x) = |f (x)| for all x. Then g is a) onto if f is onto b) one to one if f is one to one c) continuous if f is continuous d) differentiable if f is differentiable
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IIT 2000 |
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|
779 |
If f : [ 1,  → [ 2,  ] is given by f (x) = x +  then  ( x ) is given by a)  b)  c)  d) 1 + 
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IIT 2001 |
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780 |
The function of f : R → R be defined by f (x) = 2x + sinx for x ε R . Then f is a) one-one and onto b) one-one but not onto c) onto but not one-one d) neither one-one nor onto
The function of f : R → R be defined by f (x) = 2x + sinx for x ε R . Then f is a) one-one and onto b) one-one but not onto c) onto but not one-one d) neither one-one nor onto
|
IIT 2002 |
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|
781 |
Multiple choice There exists a triangle ABC satisfying the conditions a) bsinA = a, A < b) bsinA > a, A > c) bsinA > a, A < d) bsinA < a, A <, b > a e) bsinA < a, A >, b = a
Multiple choice There exists a triangle ABC satisfying the conditions a) bsinA = a, A < b) bsinA > a, A > c) bsinA > a, A < d) bsinA < a, A <, b > a e) bsinA < a, A >, b = a
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IIT 1986 |
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|
782 |
With usual notation if in a triangle ABC,  then  .
a) True b) False
With usual notation if in a triangle ABC, then . a) True b) False
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IIT 1984 |
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783 |
If in a triangle ABC, cosA cosB + sinA sinB sin C = 1 then show that a : b : c = 1 : 1 :  a) True b) False
If in a triangle ABC, cosA cosB + sinA sinB sin C = 1 then show that a : b : c = 1 : 1 : a) True b) False
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IIT 1986 |
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|
784 |
If the lines  and  intersect then the value of k is a)  b)  c)  d) 
If the lines and intersect then the value of k is a) b) c) d)
|
IIT 2004 |
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|
785 |
The area of a triangle whose vertices are
 is
The area of a triangle whose vertices are
is
|
IIT 1983 |
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|
786 |
The parameter on which the value of the determinant
Δ = 
does not depend upon is a) a b) p c) d d) x
The parameter on which the value of the determinant
Δ =
does not depend upon is a) a b) p c) d d) x
|
IIT 1997 |
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|
787 |
Consider the lines  ;
The unit vector perpendicular to both L1 and L2 is
a)  b)  c)  d) 
Consider the lines ;
The unit vector perpendicular to both L1 and L2 is a) b) c) d)
|
IIT 2008 |
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|
788 |
If b > a then the equation ( x – a ) ( x – b ) 1 = 0 has a) Both roots in [ a, b ] b) Both roots in (  , a ) c) Both roots in (  ) d) One root in ( , a ) and other in ( )
If b > a then the equation ( x – a ) ( x – b )1 = 0 has a) Both roots in [ a, b ] b) Both roots in ( , a ) c) Both roots in ( ) d) One root in ( , a ) and other in ( )
|
IIT 2000 |
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|
789 |
For what value of m does the system of equations 3x + my = m, 2x − 5y = 20 have a solution satisfying the condition x > 0, y > 0. a) m  (−∞, ∞) b) m (−∞, −15) ∪ (30, ∞) c)  d) 
For what value of m does the system of equations 3x + my = m, 2x − 5y = 20 have a solution satisfying the condition x > 0, y > 0. a) m (−∞, ∞) b) m (−∞, −15) ∪ (30, ∞) c) d)
|
IIT 1979 |
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|
790 |
If α is a repeated root of a quadratic equation f(x) = 0 and A(x), B(x), C(x) be polynomials of degree 3, 4, 5 respectively, Then show that
 is divisible by f(x) where prime denotes the derivatives.
If α is a repeated root of a quadratic equation f(x) = 0 and A(x), B(x), C(x) be polynomials of degree 3, 4, 5 respectively, Then show that
is divisible by f(x) where prime denotes the derivatives.
|
IIT 1984 |
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|
791 |
Show that  = 
Show that =
|
IIT 1985 |
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|
792 |
For all A, B, C, P, Q, R show that
 = 0
For all A, B, C, P, Q, R show that
= 0
|
IIT 1996 |
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|
793 |
Let f(x) = |x – 1|, then a)  b)  c)  d) None of these
Let f(x) = |x – 1|, then a) b) c) d) None of these
|
IIT 1983 |
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|
794 |
The differential equation representing the family of curves  where c is a positive parameter, is of a) Order 1 b) Order 2 c) Degree 3 d) Degree 4
The differential equation representing the family of curves where c is a positive parameter, is of a) Order 1 b) Order 2 c) Degree 3 d) Degree 4
|
IIT 1999 |
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|
795 |
Let a, b, c be real numbers with a2 + b2 + c2 = 1. Show that the equation represents a straight line
 = 0
Let a, b, c be real numbers with a2 + b2 + c2 = 1. Show that the equation represents a straight line
= 0
|
IIT 2001 |
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|
796 |
Let  , then the set  is a)  b)  c)  d) ϕ
Let , then the set is a) b) c) d) ϕ
|
IIT 1995 |
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|
797 |
A normal is drawn at a point  of a curve meeting X-axis at Q. If PQ is of constant length k, then show that the differential equation of the curve is 
A normal is drawn at a point of a curve meeting X-axis at Q. If PQ is of constant length k, then show that the differential equation of the curve is
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IIT 1994 |
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798 |
If f(x) = 3x – 5 then  a) is given by  b) is given by  c) does not exist because f is not one-one d) does not exist because f is not onto
If f(x) = 3x – 5 then a) is given by b) is given by c) does not exist because f is not one-one d) does not exist because f is not onto
|
IIT 1998 |
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|
799 |
Find the integral solutions of the following system of inequality
 a) x = 1 b) x = 2 c) x = 3 d) x = 4
Find the integral solutions of the following system of inequality
a) x = 1 b) x = 2 c) x = 3 d) x = 4
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IIT 1979 |
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|
800 |
Area bounded by  and 
Area bounded by and
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IIT 2006 |
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