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Board Paper of Class 12-Humanities 2019 Math Abroad(Set 3) - Solutions

General Instructions:

(i) All questions are compulsory.

(ii) This question paper contains 29 questions divided into four sections A, B, C and D. Section A comprises of 4 questions of one mark each, Section B comprises of 8 questions of two marks each, Section C comprises of 11 questions of four marks each and Section D comprises of 6 questions of six marks each.

(iii) All questions in Section A are to be answered in one word, one sentence or as per the exact requirement of the question.

(iv) There is no overall choice. However, internal choice has been provided in 1 question of Section A, 3 questions of Section B, 3 questions of Section C and 3 questions of Section D. You have to attempt only one of the alternatives in all such questions.

(v) Use of calculators is not permitted. You may ask logarithmic tables, if required.

  • Question 1
    Find the acute angle between the planes r. i^-2j^-2k^=1 and r.3i^-6j^+2k^=0 .


    Find the length of the intercept, cut off by the plane 2x + yz = 5 on the x-axis

  • Question 3
    A is a square matrix with ∣A∣ = 4. then find the value of ∣A. (adj A)∣. VIEW SOLUTION

  • Question 4
    Form the differential equation representing the family of curves y = A sin x, by eliminating the arbitrary constant A. VIEW SOLUTION

  • Question 5
     x. tan 1 x dx


  • Question 6
    Solve the following differential equation :
    dydx+y=cos x-sin x VIEW SOLUTION

  • Question 8
    Let * be an operation defined as * : R × R ⟶ R, a * b = 2a + b, a, bR. Check if * is a binary operation. If yes, find if it is associative too. VIEW SOLUTION

  • Question 9
    X and Y are two points with position vectors 3a+b and a-3b respectively. Write the position vector of a point Z which divides the line segment XY in the ratio 2 : 1 externally.


    Let a=i^+2j^-3k^ and b=3i^-j+2k^ be two vectors. Show that the vectors a+b anda-b are perpendicular to each other.

  • Question 10
    Out of 8 outstanding students of a school, in which there are 3 boys and 5 girls, a team of 4 students is to be selected for a quiz competition. Find the probability that 2 boys and 2 girls are selected.


    In a multiple choice examination with three possible answers for each of the five questions, what is the probability that a candidate would get four or more correct answers just by guessing?

  • Question 11
    The probabilities of solving a specific problem independently by A and B are 13 and 15 respectively. If both try to solve the problem independently, find the probability that the problem is solved. VIEW SOLUTION

  • Question 12
    For the matrix A = 2357, find (A + A') and verify that it is a symmetric matrix. VIEW SOLUTION

  • Question 13
    A ladder 13 m long is leaning against a vertical wall. The bottom of the ladder is dragged away from the wall along the ground at the rate of 2 cm/sec. How fast is the height on the wall decreasing when the foot of the ladder is 5 m away from the wall. VIEW SOLUTION

  • Question 14
    Prove that :

    cos-11213+sin-135=sin-15665 VIEW SOLUTION

  • Question 15
    Prove that 0af(x) dx = 0a f(ax) dx, and hence evaluate 01 x2 (1 − x)n dx. VIEW SOLUTION

  • Question 16
    If x = sin t, y = sin pt, prove that 1-x2d2ydx2-xdydx+p2y=0.


    Differentiate tan−11+x2-1-x21+x2+1-x2 with respect to cos−1x2.

  • Question 17
    Integrate the function cosx+asinx+b w.r.t. x. VIEW SOLUTION

  • Question 18
    Let A = R − (2) and B = R − (1). If f : AB is a function defined by fx=x-1x-2, show that f is one-one and onto. Hence, find f−1.


    Show that the relation S in the set A = [xZ : 0 ≤ ≤ 12] given by S = [(a, b) : a, bZ,ab∣ is divisible by 3] is an equivalence relation. VIEW SOLUTION

  • Question 19
    Solve the differential equation dydx = 1 + x2 + y2 + x2y2, given that y = 1 when x = 0.


    Find the particular solution of the differential equation dydx=xyx2+y2, given that y = 1 when x = 0 VIEW SOLUTION

  • Question 20
    Using properties of determinants, find the value of x for which

    4-x4+x4+x4+x4-x4+x4+x4+x4-x=0. VIEW SOLUTION

  • Question 21
    Find the vector equation of the plane which contains the line of intersection of the planes r.i^+2j^+3k^, -4=0, r. 2i^+j^-k^ + 5 = 0 and which is perpendicular to the plane r.5i^+3j^-6k^+8=0 VIEW SOLUTION

  • Question 22
    Find the value of x such that the four point with position vectors, A(3i^+2j^+k^), B 4i^+xj^+5k^, C4i^+2j^-2k^ and D6i^+5j^-k^ are coplanar. VIEW SOLUTION

  • Question 24
    Find the vector equation of a line passing through the point (2, 3, 2) and parallel to the line r= -2i^+3j^+λ2i^-3j^+6k^. Also, find the distance between these two lines.


    Find the coordinates of the foot of the perpendicular Q drawn from P(3, 2, 1) to the plane 2x y + z + 1 = 0. Also, find the distance PQ and the image of the point P treating this plane as a mirror

  • Question 25
    Using elementary row transformation, find the inverse of the matrix



    Using matrices, solve the following system of linear equations :

    x + 2y − 3z = −4
    2x + 3y + 2z = 2
    3x − 3y − 4z = 11 VIEW SOLUTION

  • Question 26
    Using integration, find the area of the region bounded by the parabola y2 = 4x and the circle 4x2 + 4y2 = 9.


    Using the method of integration, find the area of the region bounded by the lines 3x − 2y + 1 = 0, 2x + 3y − 21 = 0 and x − 5y + 9 = 0 VIEW SOLUTION

  • Question 27
    An insurance company insured 3000 cyclists, 6000 scooter drivers and 9000 car drivers. The probability of an accident involving a cyclist, a scooter driver and a car driver are 0⋅3, 0⋅05 and 0⋅02 respectively. One of the insured persons meets with an accident. What is the probability that he is a cyclist? VIEW SOLUTION

  • Question 28
    Using integration, find the area of the smaller region bounded by the ellipse x29+y24=1 and the line x3+y2=1. VIEW SOLUTION

  • Question 29
    A manufacturer produces nuts and bolts. It takes 1 hour of work on machine A and 3 hours on machine B to produce a package of nuts. It takes 3 hours on machine A and 1 hour on machine B to produce a package of bolts. He earns a profit of ₹ 35 per package of nuts and ₹ 14 per package of bolts. How many packages of each should be produced each day so as to maximise his profit, if he operates each machine for atmost 12 hours a day? Convert it into an LPP and solve graphically. VIEW SOLUTION
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