|
326 |
If  a)  b) [2, ∞) c)  d) 
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IIT 2002 |
06:15 min
|
|
327 |
The function  is a) Increasing on (0, ∞) b) Decreasing on (0, ∞) c) Increasing on  and decreasing on  d) Increasing on and decreasing on
The function is a) Increasing on (0, ∞) b) Decreasing on (0, ∞) c) Increasing on and decreasing on d) Increasing on and decreasing on
|
IIT 1995 |
02:10 min
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|
328 |
A point P is given on the circumference of a circle of radius r. Chord QR is parallel to the tangent at P. Determine the maximum possible area of ΔPQR.
A point P is given on the circumference of a circle of radius r. Chord QR is parallel to the tangent at P. Determine the maximum possible area of ΔPQR.
|
IIT 1990 |
08:40 min
|
|
329 |
If we consider only the principal values of the inverse trigonometric functions then the value of  is
a)  b)  c)  d) 
If we consider only the principal values of the inverse trigonometric functions then the value of is a) b) c) d)
|
IIT 1994 |
02:29 min
|
|
330 |
Let g (x) = 1 + x – [ x ] and f (x) =  then for all x,
f (g (x)) is equal to a) x b) 1 c) f ( x ) d) g ( x )
Let g (x) = 1 + x – [ x ] and f (x) = then for all x,
f (g (x)) is equal to a) x b) 1 c) f ( x ) d) g ( x )
|
IIT 2001 |
01:01 min
|
|
331 |
Let P(asecθ, btanθ) and Q(asecɸ, btanɸ) where θ + ɸ =  be two points on the hyperbola  . If (h, k) be the point of intersection of the normals at P and Q then k is equal to a)  b)  c)  d) 
Let P(asecθ, btanθ) and Q(asecɸ, btanɸ) where θ + ɸ = be two points on the hyperbola . If (h, k) be the point of intersection of the normals at P and Q then k is equal to a) b) c) d)
|
IIT 1999 |
07:25 min
|
|
332 |
Find the value of  at  where
 . a) 1 b)  c)  d) 
Find the value of at where
. a) 1 b) c) d)
|
IIT 1981 |
03:44 min
|
|
333 |
Let ℝ be the set of real numbers and f : ℝ → ℝ such that for all x and y in ℝ,  . Then f (x) is a constant. a) True b) False
Let ℝ be the set of real numbers and f : ℝ → ℝ such that for all x and y in ℝ, . Then f (x) is a constant. a) True b) False
|
IIT 1988 |
01:50 min
|
|
334 |
Let  Then at x = 0, f has a) A local maximum b) No local maximum c) A local minimum d) No extremum
Let Then at x = 0, f has a) A local maximum b) No local maximum c) A local minimum d) No extremum
|
IIT 2000 |
01:52 min
|
|
335 |
Let C be any circle with centre (0,  . Prove that at the most two rational points can be there on C (A rational point is a point both of whose coordinates are rational numbers).
Let C be any circle with centre (0, . Prove that at the most two rational points can be there on C (A rational point is a point both of whose coordinates are rational numbers).
|
IIT 1997 |
01:58 min
|
|
336 |
Find  a) 0 b) e c) ez d) e3
Find a) 0 b) e c) ez d) e3
|
IIT 1993 |
05:49 min
|
|
337 |
The relatives of a man comprise 4 ladies and 3 gentlemen and his wife has 7 relatives 3 of them are ladies and 4 gentlemen. In how many ways can they invite a dinner party of 3 ladies and 3 gentlemen so that so that three of man’s relatives and three of wife’s relatives are included?
The relatives of a man comprise 4 ladies and 3 gentlemen and his wife has 7 relatives 3 of them are ladies and 4 gentlemen. In how many ways can they invite a dinner party of 3 ladies and 3 gentlemen so that so that three of man’s relatives and three of wife’s relatives are included?
|
IIT 1985 |
04:27 min
|
|
338 |
Let  then the real roots of the equation  are
a) ± 1 b)  c)  d) 0 and 1
Let then the real roots of the equation are a) ± 1 b) c) d) 0 and 1
|
IIT 2002 |
01:42 min
|
|
339 |
Consider a family of circles  . If in the first quadrant, the common tangent to a circle of the family and the ellipse  meet the coordinate axes at A and B, then find the locus of the mid-point of AB.
Consider a family of circles . If in the first quadrant, the common tangent to a circle of the family and the ellipse meet the coordinate axes at A and B, then find the locus of the mid-point of AB.
|
IIT 1999 |
07:41 min
|
|
340 |
Multiple choices Let g (x) be a function defined on [−1, 1]. If the area of the equilateral triangle with the area of its vertices at ( 0, 0) and ( x, g (x)) is  then the function g (x) is a) g (x) =  b) g (x) =  c) g (x) =  d) g (x) =
Multiple choices Let g (x) be a function defined on [−1, 1]. If the area of the equilateral triangle with the area of its vertices at ( 0, 0) and ( x, g (x)) is then the function g (x) is a) g (x) = b) g (x) = c) g (x) = d) g (x) =
|
IIT 1984 |
02:26 min
|
|
341 |
For a fixed value of n
D = 
Then show that  is divisible by n
For a fixed value of n
D =
Then show that is divisible by n
|
IIT 1992 |
07:32 min
|
|
342 |
The area bounded by the curves  and the X–axis in the first quadrant is a) 9 b)  c) 36 d) 18
The area bounded by the curves and the X–axis in the first quadrant is a) 9 b) c) 36 d) 18
|
IIT 2003 |
04:28 min
|
|
343 |
Find the point on  which is nearest to the line 
Find the point on which is nearest to the line
|
IIT 2003 |
04:09 min
|
|
344 |
Which one of the following is true in a triangle ABC? a)  b)  c)  d) 
Which one of the following is true in a triangle ABC? a) b) c) d)
|
IIT 2005 |
02:45 min
|
|
345 |
Given A =  and f (x) = cosx – x (x + 1). Find the range of f (A). a)  b)  c)  d) 
Given A = and f (x) = cosx – x (x + 1). Find the range of f (A). a) b) c) d)
|
IIT 1980 |
02:20 min
|
|
346 |
If a function f :  is an odd function such that  for x ε [a, 2a] and the left hand derivative at x = a is 0 then find the left hand derivative at x =  a) 0 b) 1 c) a d) 2a
If a function f : is an odd function such that for x ε [a, 2a] and the left hand derivative at x = a is 0 then find the left hand derivative at x = a) 0 b) 1 c) a d) 2a
|
IIT 2003 |
03:55 min
|
|
347 |
A country produces 90% of its food diet. The population grows continuously at a rate of 3% per year. Its annual food production every year is 4% more than that of last year. Assuming that the average food requirement per person remains constant, prove that the country will become self sufficient in food after n years, where n is the smallest integer bigger than or equal to 
A country produces 90% of its food diet. The population grows continuously at a rate of 3% per year. Its annual food production every year is 4% more than that of last year. Assuming that the average food requirement per person remains constant, prove that the country will become self sufficient in food after n years, where n is the smallest integer bigger than or equal to
|
IIT 2000 |
04:17 min
|
|
348 |
If f(x) is a polynomial of degree less than or equal to 2 and S be the set of all such polynomials so that P(0) = 0 P(1) = 1, and 
Then a) S = ɸ b) S = ax + (1 – a) x2 ⩝ a ε (0, 2) c) S = ax + (1 – a) x2 ⩝ a ε (0, ∞) d) S = ax + (1 – a) x2 ⩝ a ε (0, 1)
If f(x) is a polynomial of degree less than or equal to 2 and S be the set of all such polynomials so that P(0) = 0 P(1) = 1, and Then a) S = ɸ b) S = ax + (1 – a) x2 ⩝ a ε (0, 2) c) S = ax + (1 – a) x2 ⩝ a ε (0, ∞) d) S = ax + (1 – a) x2 ⩝ a ε (0, 1)
|
IIT 2005 |
02:32 min
|
|
349 |
The line  is a diameter of the circle  a) True b) False
The line is a diameter of the circle a) True b) False
|
IIT 1989 |
01:39 min
|
|
350 |
One or more correct answers
In a triangle PQR, sin P, sin Q, sin R are in arithmetic progression then a) Altitudes are in arithmetic progression b) Altitudes are in harmonic progression c) Medians are in geometric progression d) Medians are in arithmetic progression
One or more correct answers
In a triangle PQR, sin P, sin Q, sin R are in arithmetic progression then a) Altitudes are in arithmetic progression b) Altitudes are in harmonic progression c) Medians are in geometric progression d) Medians are in arithmetic progression
|
IIT 1998 |
03:36 min
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