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  #2  
29th July 2015, 03:40 PM
Super Moderator
 
Join Date: Mar 2013
Re: Scholastic Aptitude Test Mathematics

Here I am providing the list of few questions of Scholastic Aptitude Test Mathematics exam question paper which you are looking for .

Scholastic Aptitude Test Mathematics exam question paper

SECTION-A
This section has Six Questions. Each question is provided with five alternative answers. Only one of them is the correct answer. Indicate the correct answer by A, B, C, D, E.
(6x2=12 MARKS)
1. Real numbers x1, x2, …., x2007 are chosen such that (x1, x2), (x2, x3), …., (x2006, x2007) are all points on the graph of y =
A) Such a choice is possible for all real x1 1
B) In every choice x1, x2, …, x2007 are all distinct
C) There are infinitely many choices in which all xi’s are equal
D) There exists a choice in which the product x2.x3…..x2007 = 0
E) None of these
2. The consecutive sides of an equiangular hexagon measure x, y, 2, 2006, 3, 2007 units
A) The hypothesis never takes place
B) The greatest side measures 2007 units and the smallest 2
C) The greatest side measures 2007 units, but the smallest x
D) The greatest side measures y units, but the smallest 2
E) The smallest side measures x units, the greatest y
3. ABCD is a convex quadrilateral
A) A circle can always be circumscribed to it
B) A circle can never be circumscribed to it
C) A circle can always be inscribed in it
D) A circle can never be inscribed in it
E) None of these

4. A lattice point in a plane is one both of whose coordinates are integers. Let O be ( , 1) and P any given lattice point. Then the number of lattice points Q, distinct from P, such that OP = OQ is
A) 0 B) 1 C) not necessarily 0, not necessarily 1, but either 0 or 1 D) infinitely many E) none of these

5. i) f(x, y) is the polynomial f0(x)y2007 + f1(x)y2006 + f2(x)y2005 + ….+ f2006(x)y + f2007(x), where each fi(x) is a polynomial in x with real coefficients, and ii) (x- ) is a factor of f(x, y), where is a real number. Then

A) there exists a f(x, y) such that fi(x) = x2 + 1 for some i { 0, 1, 2, …, 2007}
B) there exists a f(x, y) such that fi(x) = x - + 1 for some i { 0, 1, 2, …, 2007}
C) there exists a f(x, y) such that fi(x) = (x- )2006 + 1 for some i { 0, 1, 2, …, 2007}
D) there exists a f(x, y) such that f0(x) = x2 –(2 +1)x + ( 2+ )
E) none of these
6. (b-c)(x-a)(y-a) + (c-a)(x-b)(y-b) + (a-b)(x-c)(y-c) is
A) independent of x, but not of y B) independent of y, but not of x
C) independent of both x and y D) independent neither of x, nor of y
E) independent of x only if not independent of y
SECTION-B
This section has Six Questions. In each question a blank is left. Fill in the blank.
(6x2=12 MARKS)
1. For the purpose of this question, a square is considered a kind of rectangle. Given the rectangle with vertices (0, 0), (0, 223), (9, 223), (9, 0), divided into 2007 unit squares by horizontal and vertical lines. By cutting off a rectangle from the given rectangle, we mean making cuts along horizontal and (or) vertical lines to produce a smaller rectangle. Let m be the smallest positive integer such that a rectangle of area ‘m’ cannot be cut off from the given rectangle. Then m = _________
2. A line has an acute angled inclination and does not pass through the origin. If it makes intercepts a and b on x-, y-axes respectively, then _________
3. If k is a positive integer, let Dk denote the ultimate sum of digits of k. That is, if k is a digit, then Dk = k. If not, take the sum of digits of k. If this sum is not a single digit, take the sum of its digits. Continue this process until you obtain a single digit number. By Dk we mean this single digit number. {Dp / p is a positive multiple of 2007} = _________, in roster form.
4. The digits of a positive integer m can be rearranged to form the positive integer n such that m+n is the 2007-digited number, each digit of which is 9. The number of such positive integers m is ________.
5. and are chords of a circle such that and intersect in a point E outside the circle. F is a point on the minor arc BD such that FAB = 220, FCD = 180. Then AEC + AFC = _________.
6. The quadratic ax2 + bx + a = 0 has a positive coincident root . Then = _________.
SECTION-C
(6x2=12 MARKS)
1. Explain a way of subdividing a 102 X 102 square into 2007 non-overlapping squares of integral sides.
2. ABC is a triangle. Explain how you inscribe a rhombus BDEF in the triangle such that D , E and F .
3. Equilateral triangle ABC has centroid G. A1, B1, C1 are points on such that , , are respectively parallel to , , If the distance between and is one-sixth of the altitude of ABC, determine the ratio of areas .
4. P(x) is a polynomial in x with real coefficients. Given that the polynomial P2(x) + (9x-2007)2 has a real root , determine and also the multiplicity of .
5. Find the homogeneous function of 2nd degree in x, y, which shall vanish when x = y and also when x=4, y=3 and have value 2 when x = 2, y = 1.
6. If 3yz + 2y + z + 1 = 0 and 3zx + 2z + x + 1 = 0, then prove that 3xy + 2x + y + 1 = 0.

SECTION-D
(6x4=24 MARKS)
1. x3 is the 753rd AM of 2007 AM’s inserted between x1 and x2. y3 is the 753rd AM of 2007 AM’s inserted between y1 and y2. Show that A(x1, y1), P(x3, y3), B(x2, y2) are collinear. Determine also the ratio AP : PB.
2. Lines l and m intersect in O. Explain how you will construct a triangle OPQ such that P l, Q m, and are equal in length and is of given length ‘a’.
3. i) ABC = 1200. ii) ACD is equilateral, iii) B and D are on opposite sides of . Prove that a) bisects ABC and b) is in length equal to the sum of lengths of and .
4. a1, a2, …, a2007 are 1, 2, …, 2007 in some order. If x is the greatest of 1.a1, 2.a2, …, 2007.a2007, prove that x (1004)2.
5. Prove that for all integers n 2, 2n-1 ( 3n + 4n ) > 7n.
6. Resolve x8 + y8 into real quadratic factors.
  #3  
25th December 2019, 02:57 PM
Unregistered
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Re: Scholastic Aptitude Test Mathematics

Can you provide me previous year Mathematics question paper for preparation of Scholastic Aptitude Test (SAT) as I will be giving the exam this time?
  #4  
25th December 2019, 02:58 PM
Super Moderator
 
Join Date: Oct 2019
Re: Scholastic Aptitude Test Mathematics

The previous year Mathematics question paper for preparation of Scholastic Aptitude Test (SAT) is as follows:


If k is an integer then which of the following is true?
A) An integer of the form 4k+1 can always be put in the form 2k-1
B) An integer of the form 4k+3 can always be put in the form 2k+1
C) An integer of the form 2k-1 can always be put in the form 4k+1
D) An integer of the form 2k-1 can always be put in the form 4k+3
E) An integer of the form 2k+1 can always be put in the form 4k+3

Given any two diameters of a circle the convex quadrilateral formed by joining the extremities of the diameters is always a rectangle. True/False ________

In a right angled triangle what is the relation between the square of the altitude on to the hypotenuse and the product of the segments of the hypotenuse?


Is it possible to find two functions f and g such that the domain of f is not finite, the domain of g is finite, gof is defined? Justify your answer


Show that four divides any perfect square or leaves a remainder 1. Also show that nine divides cube of any integer or leaves 1 or 8 as remainder.


Let AB be a line segment of length 26. Let C and D be located on the line segment AB such that AC = 1 and AD = 8. Let E and F be the points on one of the semi circles with diameter AB for which EC and FD are perpendicular to AB. Find the length of the line segment EF



Mathematics Question Paper of Scholastic Aptitude Test (SAT)




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