|
326 |
The area enclosed between y = ax2 and x = ay2 (a > 0) is one square unit. Then the value of a is a)  b)  c) 1 d) 
The area enclosed between y = ax2 and x = ay2 (a > 0) is one square unit. Then the value of a is a) b) c) 1 d)
|
IIT 2004 |
04:13 min
|
|
327 |
Let f (x + y) = f (x) f (y) for all x, y. Suppose that f (5) = 2 and  (0) = 3. Find f (5). a) 1 b) 2 c) 3 d) 6
Let f (x + y) = f (x) f (y) for all x, y. Suppose that f (5) = 2 and (0) = 3. Find f (5). a) 1 b) 2 c) 3 d) 6
|
IIT 1981 |
03:33 min
|
|
328 |
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
|
|
329 |
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
|
|
330 |
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
|
|
331 |
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
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|
332 |
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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|
333 |
f(x) is a function such that  and the tangent at any point passes through (1, 2). Find the equation of the tangent. a) x = 2 b) y = 2 c) x + y = 2 d) x – y = 2
f(x) is a function such that and the tangent at any point passes through (1, 2). Find the equation of the tangent. a) x = 2 b) y = 2 c) x + y = 2 d) x – y = 2
|
IIT 2005 |
03:06 min
|
|
334 |
The lines  and  are tangents to the same circle. The radius of this circle is . . . . .
The lines and are tangents to the same circle. The radius of this circle is . . . . .
|
IIT 1984 |
02:30 min
|
|
335 |
The external radii  of ΔABC are in harmonic progression then prove that a, b, c are in arithmetic progression a) True b) False
The external radii of ΔABC are in harmonic progression then prove that a, b, c are in arithmetic progression a) True b) False
|
IIT 1983 |
01:51 min
|
|
336 |
True / False If f (x) = ( a – xn )1/n where a > 0 and n is a positive integer then f ( f ( x ) ) = x. a) True b) False
True / False If f (x) = ( a – xn )1/n where a > 0 and n is a positive integer then f ( f ( x ) ) = x. a) True b) False
|
IIT 1983 |
01:23 min
|
|
337 |
Let f(x) =  If f is continuous for all x, then k is equal to a) 3 b) 5 c) 7 d) 9
Let f(x) = If f is continuous for all x, then k is equal to a) 3 b) 5 c) 7 d) 9
|
IIT 1981 |
03:32 min
|
|
338 |
Fill in the blank The domain of the function f (x) =  is a) [− 2, − 1] b) [1, 2] c) [− 2, − 1] ⋃ [1, 2] d) None of the above
Fill in the blank The domain of the function f (x) = is a) [− 2, − 1] b) [1, 2] c) [− 2, − 1] ⋃ [1, 2] d) None of the above
|
IIT 1984 |
02:48 min
|
|
339 |
Then 
a) 0 b) 1 c) 2 d) 4
|
IIT 1981 |
01:26 min
|
|
340 |
The complex numbers  satisfying  are the vertices of the triangle which is a) of zero area b) right angle isosceles c) equilateral d) obtuse angled isosceles
The complex numbers satisfying are the vertices of the triangle which is a) of zero area b) right angle isosceles c) equilateral d) obtuse angled isosceles
|
IIT 2001 |
05:10 min
|
|
341 |
Let x and y be two real variables such that x > 0 and xy = 1. Find the minimum value of x + y. a) 1 b) 2 c) 3 d) 4
Let x and y be two real variables such that x > 0 and xy = 1. Find the minimum value of x + y. a) 1 b) 2 c) 3 d) 4
|
IIT 1981 |
01:44 min
|
|
342 |
ABC is an isosceles triangle in a circle of radius r. If AB = AC and h is the altitude from A to BC then the triangle ABC has perimeter  , area A = . . . . . Also  . . . . .
ABC is an isosceles triangle in a circle of radius r. If AB = AC and h is the altitude from A to BC then the triangle ABC has perimeter , area A = . . . . . Also . . . . .
|
IIT 1989 |
07:12 min
|
|
343 |
Let f(x) = x|x|. The set of points where f(x) is twice differentiable is . . . . a) ℝ b) 0 c) ℝ − {0, 1}
Let f(x) = x|x|. The set of points where f(x) is twice differentiable is . . . . a) ℝ b) 0 c) ℝ − {0, 1}
|
IIT 1992 |
02:00 min
|
|
344 |
Find the shortest distance of the point (0, c) from the parabola
y = x2, where 0 ≤ c ≤ 5. a)  b)  c)  d) 
Find the shortest distance of the point (0, c) from the parabola
y = x2, where 0 ≤ c ≤ 5. a) b) c) d)
|
IIT 1982 |
03:58 min
|
|
345 |
Intercepts on the line y = x by the circle  is AB. Equation of the circle with AB as diameter is . . . . .
Intercepts on the line y = x by the circle is AB. Equation of the circle with AB as diameter is . . . . .
|
IIT 1996 |
03:14 min
|
|
346 |
The number of real solutions of the equation | x |2 – 3 | x | + 2 = 0 is a) 4 b) 1 c) 3 d) 2
The number of real solutions of the equation | x |2 – 3 | x | + 2 = 0 is a) 4 b) 1 c) 3 d) 2
|
IIT 1982 |
01:27 min
|
|
347 |
Match the following Let the function defined in column 1 has domain  | Column 1 | Column 2 | | i) x + sinx | A)increasing | | ii) secx | B) decreasing | | | C)neither increasing nor decreasing | a) i) → A, ii) → B b) i) → A, ii) → C c) i) → C, ii) → A d) i) → B, ii) → C
Match the following Let the function defined in column 1 has domain | Column 1 | Column 2 | | i) x + sinx | A)increasing | | ii) secx | B) decreasing | | | C)neither increasing nor decreasing | a) i) → A, ii) → B b) i) → A, ii) → C c) i) → C, ii) → A d) i) → B, ii) → C
|
IIT 1992 |
02:39 min
|
|
348 |
A man walks a distance of three units from the origin towards north-east (N direction. From there he walks a distance of 4 units towards north–west (N direction to reach a point P. Then the position of P in the argand plane is a)  b)  c)  d) 
A man walks a distance of three units from the origin towards north-east (N direction. From there he walks a distance of 4 units towards north–west (N direction to reach a point P. Then the position of P in the argand plane is a) b) c) d)
|
IIT 2007 |
05:31 min
|
|
349 |
Find the coordinates of the point on the curve  where the tangent to the curve has the greatest slope. a) (0, 0) b)  c)  d) 
Find the coordinates of the point on the curve where the tangent to the curve has the greatest slope. a) (0, 0) b) c) d)
|
IIT 1984 |
06:59 min
|
|
350 |
If p, q, r are any real numbers, then a) Max ( p, q ) < max ( p, q, r ) b) Min ( p, q ) =   c) Max ( p, q ) < min ( p, q, r ) d) none of these
If p, q, r are any real numbers, then a) Max ( p, q ) < max ( p, q, r ) b) Min ( p, q ) = c) Max ( p, q ) < min ( p, q, r ) d) none of these
|
IIT 1982 |
01:52 min
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