|
326 |
Let F(x) = f (x) g (x) h (x) for all real x, where f (x), g (x) and h (x) are differentiable functions. At some point x0  and
 then k is equal to
a) 12 b) 20 c) 24 d) 28
Let F(x) = f (x) g (x) h (x) for all real x, where f (x), g (x) and h (x) are differentiable functions. At some point x0 and then k is equal to a) 12 b) 20 c) 24 d) 28
|
IIT 1997 |
01:17 min
|
|
327 |
If  then f  a)  b)  c) 3 d) None
If then f a) b) c) 3 d) None
|
IIT 2005 |
02:29 min
|
|
328 |
If c be a given non-zero scalar and A and B be given non-zero vectors such that A is perpendicular to B, find the vector X which satisfies the equations 
If c be a given non-zero scalar and A and B be given non-zero vectors such that A is perpendicular to B, find the vector X which satisfies the equations
|
IIT 1983 |
01:16 min
|
|
329 |
The set of all values of x in the interval (0, π) for which
 is a) (0 ,  ) b) {  } c) (  , π) d) (0,  ) U { } U ( , π)
|
IIT 1987 |
02:55 min
|
|
330 |
If G(x) then  is a)  b)  c)  d) 
If G(x) then is a) b) c) d)
|
IIT 1983 |
01:40 min
|
|
331 |
Show that 
Show that
|
IIT 1982 |
01:38 min
|
|
332 |
If a, b, c are coplanar, show that
If a, b, c are coplanar, show that
|
IIT 1989 |
02:38 min
|
|
333 |
 is the reflexion of  in the line whose equation is . .
is the reflexion of in the line whose equation is . .
|
IIT 1982 |
00:57 min
|
|
334 |
Use mathematical induction to prove that  is divisible by 24 for all n > 0.
Use mathematical induction to prove that is divisible by 24 for all n > 0.
|
IIT 1985 |
03:43 min
|
|
335 |
If  Where [x] denotes the greatest integer less than or equal to x then  equals a) 1 b) 0 c) – 1 d) None of these
If Where [x] denotes the greatest integer less than or equal to x then equals a) 1 b) 0 c) – 1 d) None of these
|
IIT 1985 |
02:39 min
|
|
336 |
Evaluate  a)  b)  c)  d) 
|
IIT 1984 |
03:38 min
|
|
337 |
Given the points A (0, 4) and B (0, - 4) the equation of the locus of the point P (x, y) such that |AP – BP| = 6 is . . . . .
Given the points A (0, 4) and B (0, - 4) the equation of the locus of the point P (x, y) such that |AP – BP| = 6 is . . . . .
|
IIT 1983 |
05:23 min
|
|
338 |
The solution of  is a)  b)  c)  d) None of these
The solution of is a) b) c) d) None of these
|
IIT 1981 |
01:11 min
|
|
339 |
Let [.] denotes the greatest integer function and f(x) =  then a)  does not exist b) f (x) is continuous at x = 0 c) f (x) is not differentiable at x = 0 d) 
Let [.] denotes the greatest integer function and f(x) = then a) does not exist b) f (x) is continuous at x = 0 c) f (x) is not differentiable at x = 0 d)
|
IIT 1993 |
01:28 min
|
|
340 |
Evaluate  a)  b)  c)  d) 
|
IIT 1988 |
06:04 min
|
|
341 |
Two circles  and  are given. Then the equation of the circle through their points of intersection and the point (1, 1) is a)  b)  c)  d) None of these
Two circles and are given. Then the equation of the circle through their points of intersection and the point (1, 1) is a) b) c) d) None of these
|
IIT 1980 |
02:25 min
|
|
342 |
If n be a positive integer such that
 then a)  b)  c)  d) 
If n be a positive integer such that
then a) b) c) d)
|
IIT 1994 |
03:42 min
|
|
343 |
 is
a) 2 b) – 2 c)  d) 
|
IIT 1999 |
03:16 min
|
|
344 |
Evaluate  a)  b)  c)  d) 
|
IIT 1991 |
09:59 min
|
|
345 |
Which of the following are rational? a)  b)  c)  d) 
Which of the following are rational? a) b) c) d)
|
IIT 1998 |
02:53 min
|
|
346 |
Using mathematical induction prove that
Using mathematical induction prove that
|
IIT 1993 |
08:39 min
|
|
347 |
For x ε R,  is equal to a) e b)  c)  d) 
For x ε R, is equal to a) e b) c) d)
|
IIT 2000 |
06:08 min
|
|
348 |
Evaluate 
Evaluate
|
IIT 1995 |
09:27 min
|
|
349 |
The locus of the centre of circles which touches externally  and which touches the Y-axis is given by the equation a)  b)  c)  d) 
The locus of the centre of circles which touches externally and which touches the Y-axis is given by the equation a) b) c) d)
|
IIT 1993 |
04:38 min
|
|
350 |
The values of θ ε (0, 2π) for which  are a)  b)  c)  d) 
The values of θ ε (0, 2π) for which are a) b) c) d)
|
IIT 2006 |
03:08 min
|
