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326 |
Let  and  be the roots of the equation  where the coefficients p and q may be complex numbers. Let A and B represent  in the complex plane. If  and OB = OA where O is the origin, prove that  .
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IIT 1997 |
04:53 min
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|
327 |
Three normals are drawn from the point (c, 0) to the curve  . Show that c must be greater than . One normal is always the X-axis. Find c for which the other two normals are perpendicular.
Three normals are drawn from the point (c, 0) to the curve . Show that c must be greater than. One normal is always the X-axis. Find c for which the other two normals are perpendicular.
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IIT 1991 |
05:44 min
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|
328 |
For the equation  if one of the roots is square of the other then p is equal to a)  b)  c) 3 d) 
For the equation if one of the roots is square of the other then p is equal to a) b) c) 3 d)
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IIT 2000 |
03:13 min
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|
329 |
The number of solutions of  is a) 3 b) 1 c) 2 d) 0
The number of solutions of is a) 3 b) 1 c) 2 d) 0
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IIT 2001 |
02:44 min
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|
330 |
If a, b, c be positive and not all equal, show that the value of the determinant  is negative.
If a, b, c be positive and not all equal, show that the value of the determinant is negative.
|
IIT 1981 |
04:21 min
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|
331 |
Match the following Normals are drawn at the points P, Q and R lying on the parabola  which intersect at (3, 0) then | Column 1 | Column 2 | | i) Area of ΔPQR | A. 2 | | ii) Radius of circumcircle of ΔPQR | B.  | | iii) Centroid of ΔPQR | C.  | | iv) Circumcentre of ΔPQR | D.  |
Match the following Normals are drawn at the points P, Q and R lying on the parabola which intersect at (3, 0) then | Column 1 | Column 2 | | i) Area of ΔPQR | A. 2 | | ii) Radius of circumcircle of ΔPQR | B. | | iii) Centroid of ΔPQR | C. | | iv) Circumcentre of ΔPQR | D. |
|
IIT 2006 |
07:33 min
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|
332 |
If  a polynomial of degree 3, then  equals a)  b)  c)  d) a constant
If a polynomial of degree 3, then equals a) b) c) d) a constant
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IIT 1988 |
05:23 min
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|
333 |
If  ε  then  is always greater than or equal to a) 2 tan  b) 1 c) 2 d) 
If ε then is always greater than or equal to a) 2 tan b) 1 c) 2 d)
|
IIT 2003 |
02:05 min
|
|
334 |
If the expression  is real then the set of all possible values of x is . . . . a) x = 2nπ or mπ + π/4 b) x = nπ or mπ + π/4 c) x = 2nπ or 2mπ + π/4 d) x = nπ or 2mπ + π/4
If the expression is real then the set of all possible values of x is . . . . a) x = 2nπ or mπ + π/4 b) x = nπ or mπ + π/4 c) x = 2nπ or 2mπ + π/4 d) x = nπ or 2mπ + π/4
|
IIT 1987 |
06:12 min
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|
335 |
(Assertion and reason) The question contains statement – 1 (assertion) and statement 2 (reason). Of these statements mark correct choice if a) Statement 1 and 2 are true. Statement 2 is a correct explanation for statement 1. b) Statement 1 and 2 are true. Statement 2 is not a correct explanation for statement 1. c) Statement 1 is true. Statement 2 is false. d) Statement 1 is false. Statement 2 is true Statement 1 – The curve  is symmetric with respect to the line x = 1 Statement 2 – The parabola is symmetric about its axis.
(Assertion and reason) The question contains statement – 1 (assertion) and statement 2 (reason). Of these statements mark correct choice if a) Statement 1 and 2 are true. Statement 2 is a correct explanation for statement 1. b) Statement 1 and 2 are true. Statement 2 is not a correct explanation for statement 1. c) Statement 1 is true. Statement 2 is false. d) Statement 1 is false. Statement 2 is true Statement 1 – The curve is symmetric with respect to the line x = 1 Statement 2 – The parabola is symmetric about its axis.
|
IIT 2007 |
01:47 min
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|
336 |
If  then a)  b)  c)  d) 
|
IIT 2003 |
00:43 min
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|
337 |
Let P = (x, y) be any point on  with focii  and  equals a) 8 b) 6 c) 10 d) 12
Let P = (x, y) be any point on with focii and equals a) 8 b) 6 c) 10 d) 12
|
IIT 1998 |
01:38 min
|
|
338 |
Let α, β be roots of the equation  are the roots of the equation  then the value of r is equal to a)  b)  c)  d) 
Let α, β be roots of the equation are the roots of the equation then the value of r is equal to a) b) c) d)
|
IIT 2007 |
02:46 min
|
|
339 |
Show that square of  is a rational number.
Show that square of is a rational number.
|
IIT 1978 |
04:58 min
|
|
340 |
The determinants   are. a) Identical b) Not identical c) Identical if a = b = c d) None of the above
The determinants are. a) Identical b) Not identical c) Identical if a = b = c d) None of the above
|
IIT 1983 |
02:07 min
|
|
341 |
Given that x = −9 is a root of  = 0  .
a) {2, 7} b) {−2, −7} c) {2, 0} d) {0, 7}
Given that x = −9 is a root of = 0 . a) {2, 7} b) {−2, −7} c) {2, 0} d) {0, 7}
|
IIT 1983 |
02:14 min
|
|
342 |
An ellipse has OB as a semi-minor axis. F, F’ are its focii and the angle FBF’ is a right angle. Then the eccentricity of the ellipse is . . . . .
An ellipse has OB as a semi-minor axis. F, F’ are its focii and the angle FBF’ is a right angle. Then the eccentricity of the ellipse is . . . . .
|
IIT 1997 |
02:22 min
|
|
343 |
If x = 9 is the chord of contact of the hyperbola  then the equation of the corresponding pair of tangents is a)  b)  c)  d) 
If x = 9 is the chord of contact of the hyperbola then the equation of the corresponding pair of tangents is a) b) c) d)
|
IIT 1999 |
03:20 min
|
|
344 |
Solve for x 
Solve for x
|
IIT 1985 |
03:54 min
|
|
345 |
The rational number which equals the numbers  with recurring decimals is a)  b)  c)  d) 
The rational number which equals the numbers with recurring decimals is a) b) c) d)
|
IIT 1983 |
02:26 min
|
|
346 |
If a, b, c are in Geometric Progression then the equations 
have a common root if  are in a) Arithmetic Progression b) Geometric Progression c) Harmonic Progression d) None of these
If a, b, c are in Geometric Progression then the equations
have a common root if are in a) Arithmetic Progression b) Geometric Progression c) Harmonic Progression d) None of these
|
IIT 1985 |
03:08 min
|
|
347 |
The circle  intersects hyperbola  in four points  then a)  b)  c)  d) 
The circle intersects hyperbola in four points then a) b) c) d)
|
IIT 1998 |
02:27 min
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|
348 |
Solve for x in the following equation 
Solve for x in the following equation
|
IIT 1987 |
07:03 min
|
|
349 |
Let Tr be the rth term of an Arithmetic Progression for  If for some positive integers m, n we have  and  then Tmn equals a)  b)  c)  d) 
Let Tr be the rth term of an Arithmetic Progression for If for some positive integers m, n we have and then Tmn equals a) b) c) d)
|
IIT 1998 |
01:51 min
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|
350 |
The probability that at least one of the events A and B occurs is 0.6. If A and B occur simultaneously with probability 0.2 then  is a) 0.4 b) 0.8 c) 1.2 d) 1.4
The probability that at least one of the events A and B occurs is 0.6. If A and B occur simultaneously with probability 0.2 then is a) 0.4 b) 0.8 c) 1.2 d) 1.4
|
IIT 1987 |
02:39 min
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