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C L A S S : X II M A T H E M A T IC S H IG H E R O R D E R T H IN K IN G SK IL L S 2 008 - 2009 K E N D R IY A V ID Y A L A Y A S A N G A T H A N BANGALORE REGION QUESTION BANK HIGHER ORDER THINKING SKILLS CLASS XII - MATHEMATICS Shri Ranglal Jamuda, I. A. S. Chief Patron Commissioner KVS, New Delhi Smt.P R Srivastava I. P.S. Patron Joint Commissioner (Admn) KVS, New Delhi Dr. U N Singh Joint Commissioner(Academics) KVS, New Delhi Shri S Vijaya Kumar Advisor Guidance Assistant Commissioner KVS, Bangalore Region Dr S D Chakrabarti Education Officer KVS, Bangalore Region Co-ordinator Sri. C. Karunakaran Principal K.V. Hebbal, Bangalore Subject Contributors Sri. D. Sreenivasulu PGT (Maths) KV ASC & Centre, Bangalore. Sri. N. Karuppannan, PGT (Maths) KV IISc, Bangalore. Sri. B. Srinivas PGT (Maths) KV CRPF, Bangalore. Smt. Y.S. Nagalakshmi PGT (Maths) KV, Hassan 2 RELATIONS AND FUNCTIONS 1 Mark x 1 , (x 1,-1), show that fof -1 is an identity function. x +1 1) If f(x) = 2) 5 2 2 If f(x) = Sin x + Sin x + + Cosx.Cos x + and g = 1, then find the value of gof(x) = x 3 3 4 (Ans : 1) 3) Let * be a binary operation on the set of real numbers. If a * b = a+b-ab, 2 * (3 * x) = -7, find the value of x. (Ans : x=-2) 4) Find the number of One-One functions from a finite set A to A, where n(A) = P (Ans : P!) 5) Let A = {4,5,0}. Find the number of binary operations that can be defined on A. (Ans: 39) 6) Let :{R R} be a function defined by f(x) = x -3x+4, for all x R , find the value of f (2) 2 -1 Ans: {1,2} 7) Let f : R R defined by f(x) = (ax2+b)3 find the function g : R R such that f(g(x)) = g(f(x)) 1 2 1 x3 b Ans: a 8) If f( x) = 5x + 3 5 x , find g(x) such that gof(x) = x 4x - 5 4 9) If f( x) = 1+ x , show that f[f(tan )] = - cot 1- x 10) Show that 11) Let f, g be two functions defined by f( x) = 12) 5x + 3 4x - 5 1 1 + cot x + 5 + x 3 is an odd function. 3 sin x x x x , g( x) = , then find (fog)-1( x) x +1 1 x Let f( x) = Ans: g(x) = Ans: x x , x -1, find the value of such that f(f(x)) = x x +1 Ans: =-1 4 Marks / 6 marks 13) x+y 1+ x , show that f(x) + f(y) = f If f( x) = log 1 + xy 1- x 14) If R is a relation on a set A(A ), prove that R is symmetric iff R-1 = R 15) Show that the relation R on N x N defined by (a,b)R(c,d) a+d = b+c is an equivalence relation. 16) 1 Let f : R + [ 5, ) given by f(x) = 9x2+6x-5. Show that f is invertiable with f (y) = 17) Show that the relation congruence modulo 2 on the set Z (set of integers) is an equivalence relation. Also find the equivalence class of 1. 3 y + 6 1 3 18) If the function f : R A given by f(x) = x2 x2 + 1 is surjection, find the set A. Ans: A = Range of f(x)=[0,1) 19) Let a relation R on the set R of real numbers be defined as (a,b) R 1 + ab > 0 for all a, b R. show that R is reflexive and symmetric but not transitive. 20) Let a relation R on the set R of real numbers defined as (x, y) R x 2 4 xy + 3y 2 = 0. Show that R is reflexive but neither symmetric nor transitive. 21) Let N denote the set of all natural numbers and R be the relation on N x N defined by (a,b)R(c, d) ad(b + c) = bc(a + d). Show that R is an equivalence relation on N x N. 22) Prove that the inverse of an equivalence relation is an equivalence relation. 23) Let f : A B be a given function. A relation R in the set A is given by R = { a,b) A x A : f(a) = f(b)} . Check, if R is an equivalence relation. ( Ans: Yes 24) Let f and g be real valued functions, such that (fog)(x) = cosx3 and (gof)(x) = cos3x, find the functions f and g. Ans: f(x)=cosx, g(x) = x3 25) Define a binary operation * on the set A = {0,1,2,3,4,5} as a + b, a *b = a + b - 6, if a + b < 6 if a + b 6 Show that zero is an identity element for this operation and each element a of the set is invertiable with 6-a being the inverse of a. 26) Show that the function f : N N given by f(x) = x - (-1)x for all x N is a bijection. 27) Prove that relation R defined on the set N of natural numbers by x R y 2x2-3xy+y2 = 0 is not symmetric but it is reflexive. 28) Let X = {1,2,3,4,5,6,7,8,9}. Let R1 and R2 be relations in X given by R1 = {(x,y) : x-y is divisible by 3} and R2 = {(x,y) ! {x,y} {1,4,7} or {x,y} {2,5,8} or {x,y} {3,6,9}}. Show that R1 = R2 29) Determine which of the following functions f : R R are (a) One - One (b) Onto (i) f(x) = |x| + x (ii) f(x) = x - [x] (Ans: (i) and (ii) Neither One-One nor Onto) 30) On the set N of natural numbers, define the operation * on N by m*n = gcd(m,n) for all m, n N. Show that * is commutative as well as associative. ***** 4 INVERSE TRIGONOMETRIC FUNCTIONS 1 Mark 1) 1 3 Find the value of cos Cos 2 + 6 Ans: -1 2) Find the value of tan-11 + tan-12 + tan-13. Ans: 3) 1 1 + Cos 1x = 1 Solve for x : Sin Sin 5 Ans: 4) 1 cos x Write the simplest form : tan 1 sin x Ans: 5) Considering the principal solutions, find the number of solutions of tan 1 2 x + tan 1 3x = 4 1 5 x + 42 Ans: 2 6) 1 3 1 3 Find the principal value of Sin 2 + Cos 2 7) 1 1 1 Find the value of x if Co sec x + 2Cot 7 + Cos 8) If Cos-1x = tan-1x, show that Sin(cos-1x) = x2 9) 1 5 1 12 If x > 0 and Sin + Sin = , then find the value of x. Ans: x = 13 x 2 x 10) 1 1 x Prove that Cos 2Cot 1 + x + x = 0 Ans: 3 4 2 1 Ans: x = Co sec 125 117 4 Marks / 6 Marks 1 1 1 tan 1 + tan 1 = 5 70 99 4 11) 1 Prove that 4 tan 12) -1 1 1 If x, y, z [-1,1] such that Sin x + Sin y + Sin z = x 2006 + y 2007 + z 2008 3 , find the value of 2 9 x 2006 +y 2007 Ans: zero ; x=1,y=1,z=1 + z 2008 x y x 2 2 xy y2 + Cos 1 = , prove that 2 cos + 2 = sin2 a b ab a b 13) 1 If Cos 14) If Sin 1x + Sin 1y + Sin 1z = , prove that x 1- x 2 + y 1 y 2 + z 1 z 2 = 2 xyz 15) 1 1 Prove that : Sin2 cot cos(tan x) = 16) In any Triangle ABC, if A = tan-12 and B = tan-13, prove that C = [ { }] x2 + 1 x2 + 2 5 4 17) [{ y = Sec[cot { sin(tan }] If x = cosec tan-1 cos(cot 1(sec(sin 1 a))) and }] 1 -1 (cos ec(cos 1 a))) where a [0,1] Find the relationship between x and y in terms of a 18) bc + 1 ca + 1 1 ab + 1 + Cot 1 + Cot 1 Prove that : Cot =0 a b b c c a 19) Solve for x : Sin 20) 1 1 1 2 2 Prove : cos x cos y = cos xy + 1 x . 1 y 21) If tan 1 a + tan 1 b + tan 1 c = , Prove that a+b+c -= abc 22) 1 Prove that tan 23) Solve for x : tan 1(x + 1) + tan 1 x + tan 1(x 1) = tan 1 3 24) Solve : Sin 2 cos 1 cot(2 tan 1 x) = 0 25) 1 If Cos Ans: x2=y2=3-a2 [ 1 2 2 + Sin 1 = 2 tan 1 x 2 2 1+ 1+ Ans: x = + 1 yz zx xy + tan 1 + tan 1 = where x 2 + y 2 + z 2 = r 2 xr yr zr 2 { }] Ans: x = -1 Ans: 1, - 1 2 , 1 2 x y + cos 1 = , Prove that 9x 2 12 xy cos + 4 y 2 = 36 sin2 2 3 ****** 6 HIGHLY ORDER THINKING QUESTIONS HOTS - MATRICES / DETERMINANTS 1) a-x a b 32 If a + b + c = 0 and c b x a =0 a + b 2 + c2 then prove that either x = 0 or x = 2 b a c x ( 2) p q 2 If A = is such that A = I then find the value of I-P2+qr r - p 3) cos - sin If A = and A + A T = I . Find the possible values of = 3 sin cos 4) ) Inverse of a square matrix is unique. Give an example to prove it? 5) x 3 x 4 x a x 2 x 3 x b = 0 Prove that , where a, b, c are in A.P. x 1 x 2 x c a2 a 2 + ab bc ac +c 2 b2 ac = 4a 2b 2 c 2 b 2 + ac c2 6) Using properties of Determinants prove that : 7) 2 3 Express 1 4 as sum of the symmetric and skew symmetric matrices. 8) ab (b + c)2 ab ca + c)2 ab (a bc = 2abc(a + b + c)2 Prove that (Use properties to prove the above) ca bc (a + b)2 x sin cos sin cos x 1 1 x 9) Prove the determinant 10) The total number of elements in a matrix represents a prime number. How many possible orders a matrix can have. 2 is independent as (Ans: Scalar term) 1 8 10 4 0 3 10 20 10 11) 2 1 0 1 X = Find the matrix X such that : 2 4 12) If f(x) = 3x2-9x+7, then for a square matrix A, write f(A) 13) ) (a + 1 (a + 2) (a + 2) 1 (a 2) (a 3) a 3) 1 = - 2 + + + Prove that (a + 3) (a + 4) (a + 4) 1 7 (3A2-9A+7I) 14) Cos2 A Cos2B CosASinA CosBSinB , Y = If 2 Sin A Sin2B CosASinA CosBSinB then show that XY is a zero matrix, provided (A-B) is an odd multiple of 2 15) x37 2 x 2 =0 Give that x = -9 is a root of find the other roots. Hint: Evaluate, find other roots. 76x 16) 3 1 If A = 7 5 find x and y such that A2+xI = yA. Find A-1 17) If P and Q are equal matrices of same order such that PQ = QP then prove by induction that , PQn = QnP Further, show that (PQ)n = Pn x Qn . 18) 2 0 0 A = 0 2 0 , then A 5 = ? If 0 0 2 19) If A and B are two matrices such that AB = B and BA = A then A2+B2 = ____?_____\ 20) 3n 1 3n 1 3n 1 1 1 1 A = 1 1 1 then prove that A n = 3n 1 3n 1 3n 1 n N If 3n 1 3n 1 3n 1 1 1 1 21) Find the values of a, b, c if the matrix I3 0 2b c a b c satisfy the equation A|A = I3 A= a b c 22) Assume X, Y, Z, W and P are matrices of order (2 x n), (3xk), (n x 3) and (p x k) respectively, then the restriction on n, k and p so that py + my will be defined are : (k=3, p=n) 23) Let A and B be 3 x 3 matrices such that AT = -A and BT = B. Then the matrix (AB+3BA) is skew symmetric matrix for . ( =3) 24) 3 1 If A = 1 2 , show that A2 5A+7I = 0, use the result to find A 4 55 39 55 16 25) k 2 For what value of K the matrix 3 4 has no inverse. (K = 3/2) 26) If A is a non-singular matrix of order 3 and |A| = -4 Find |adj A| (16) 27) a11 a 12 Given A = such that | A | = - 10. Find a11c11 + a12 c12 a 21 a 22 (10) 28) xbc x y z a y c = 0, then find the value of + + If x -a y b z c abz 8 (2) 29) 2 3 If A = 3 4 satisfies the equation : 1 x2-6x+17 = 0 find A 30) 1 4 3 Ans : 17 3 2 2 4 0 2 1 6 Find the matrix x if 1 3 x 1 3 = 3 2 X =- 1 53 18 4 25 10 31) cos a sin a 0 sin a cos a 0 then show that [P(x)] 1 = [P( x)] If P(a) = 0 0 1 32) If two matrices A-1 and B are given how to find (AB)-1 verify with an example. (Find B-1 then find B-1 x A-1) 33) 1 2 1 2 3 1 Verify (AdjA)-1 = adj(A-1) If A = 1 1 5 34) 3 1 Find the values of a and b such that A2 + aI = bA where A = 7 5 35) cos sin If P( ) = sin cos show that p( ) x p( ) = p( + ) 36) cos i sin cos n i sin n n If A = i sin cos then prove by Mathematical Induction that : A = i sin n cos n 37) 1 3 4 1 If A = 1 2 find Matrix B such that AB = I, Ans : B = 2 38) (a=b=8) 2 3 2 xyz y z x is negative. If x, y, z are positive and unequal show that the value of determinant zxy sin(A + B + C) sin B cos C sin B 0 tan A = 0 cos(A + B) tan A 0 39) If A + B + C = , show that 40) Find the quadratic function defined by the equation f(x) = ax 2+bx+c if f(o) = 6, f(2) = 11, f(-3) = 6, using determinants. 41) If x, y and z all positive, are pth, qth and rth terms of a G.P. Prove that 9 log x p 1 log y q 1 = 0 log z r 1 42) 2y + 4 5y + 7 8 y + a 3y + 5 6 y + 8 9y + b If a, b, c are in A.P. then find the value of : 4 y + 6 7 y + 9 10 y + c 43) cos 2 sin 2 cos sin n If A = sin cos then show that A = sin 2 cos 2 44) 0 0 1 0 1 0 find A 2 Hence find A 6 If A = 1 0 0 (O) 1 0 0 0 1 0 Ans: 0 0 1 1 0 2 x 2 1 4 = 0 2 0 3 1 [x 5 1] 0 45) Find x, if Ans: x = 4 3 46) If P and Q are invertible matrices of same order, then show that PQ is also invertible. 47) If the points (2,0), (0,5) and (x,y) are collinear give a relation between x and y. 48) 3y 32 Let x 1 = 4 1 find the possible values of x and y, find the values if x = y. 49) n a b n a 0 1 prove that A = If A = 0 50) For any square matrix verify A(adj A) = |A|I b(a n 1 ) a 1 , n N 1 ***** 10 CONTINUITY AND DIFFERENTIABILITY 1 Mark 1) 2) Let f be continuous function on [1,3]. If f takes only rational values for all x and f(2) = 10 then find the value of f(1.5) Ans: 10 Let f be a non zero continuous function satisfying f(x+y) = f(x).f(y) for all x, y R. If f(2) = 9 then find the value of f(3). Ans: 33=27, f(x) is of the form ax. 3) Find 4) Find the set of all points where the function f(x) = 2x|x| is differentiable. 5) If f (x) = g(x) and g (x) = -f(x) for all n and f(2) = f (2)=4, find the value of f (24)+g2(24) Ans: 32 6) .......... dy xx when y = x x dx | Ans: | | dy y2 = dx x(1 y log x) Ans: ( , ) 2 x x 2 x3 f( x) = 1 2 x 3x 2 If then find f|(x) 0 2 6x x , x > 0 find Ans: 6x2 dy dx 7) Let y = y = e 8) Verify Rolle s theorem for the function f(x) = sin2x in 0, 2 9) Find dy when y = a x .x a dx 10) Find dy 1+ x2 when y = tan-1 dx 1 x 2 Ans: 1 ex 4 x Ans: C= 4 Ans: a x .x a 1(a + x log a) Ans: 2x 4 1+ x 4 MARKS/6 MARKS 11) 1 cos 4 x , if x < 0 x2 f( x) = a , if x = 0 Given that x , if x > 0 16 + x 4 If f(x) is continuous at x = 0, find the value of a. 12) 13) 1 e x 1 , when x 0 f( x) = 1 Show that the function : e x + 1 0, when x = 0 Ans: a=8 is discontinuous at x = 0 3x + 4tanx continuous at x = 0? If not, how may the function be defined to x make it continuous at this point. Is the function f( x) = 3x + 4 tan x , when x 0 f( x) = x Ans: 7, when x = 0 11 14) Find a and b if the function : a |sin x| [1+ | sin x |] , <x<0 6 f( x) = 6 , x=0 tan 2 x e tan 3 x , 0<x< 6 , is continuous on 6 6 15) | x |, x 2 Show that the function : f( x) = [x] , x > 2 is continuous on [0,2] 16) Show that Sin|x| is continuous. 17) x + , x < 1 Show that the function f( x) = x 2 + 1, x 1 is continuous function, regardless of the choice of R 18) Determine the values of a, b and c for which the function : sin(a + 1)x + sinx , x < 0 x f( x) = c , x=0 x + bx 2 x , x>0 b x3 may continuous at x = 0 3 1 Ans: a = , c = , b may have any real number. 2 2 19) 20) Show that the function f(x) = |Sinx+cosx| is continuous at x = log(1 + ax) - log(1- bx) is not defined at x = 0. Find the value of f(x) so that x f(x) is continuous at x = 0. The function f( x) = Ans: f(x) to be continuous at x = 0, f(o) = a+b 21) Find all the points of discontinuity of f defined by f(x) = |x|-|x+1| 22) 1 x | cos | if x 0 f( x) = x Let 0 if x = 0 then discuss the continuity of f(x) at x = 0 Ans: Yes, f(x) is continuous at x = 0 23) Discuss the continuity of the following function at x = 0 x 4 + x 3 + 2x 2 , x 0 tan 1 x f( x) = 10 , x=0 12 Ans: x=0, -1 24) Let 3 1- sin x if x < 3 cos2 x 2 f( x) = a if x = 2 b(1 sin x) if x > ( 2x )2 2 If f(x) is continuous at x x = , find a and b. 2 Ans : a= , b = 4 25) Let (x) and (x) be derivable at x = 3. Show that necessary and sufficient condition for the function defined as : (x), x c f( x) = to be derivable at x = c are (i) (c) = (c) (ii) |(c) = |(c) (x), x > c 26) 5x + 12 1 x 2 dy when y = Sin-1 Find dx 13 27) dy 2x 1 1 2 2 4 + If y = Sin x 1 x + x 1 x , prove that dx = 4 2 1 x 1 x 28) If y = 29) 1 a cos x b sin x Differentiate w.r.t. x, y = tan b cos x + a sin x 30) Find 31) x x x Sinx , Given that Cos .Cos .Cos ......... = 2 4 8 x 1 x 2 a b x dy 1 tan 1 tan , prove that ,a > b > 0 = 2 dx a + b cos x a+b a b 2 dy , when y = sin-1 x x 1 x 1 x 2 dx 1 2 2 Sec 2 Ans: -1 Ans: x 1 x 1 + 4 Sec 2 + ....... = Co sec 2 x 2 22 4 x 1 + sin x + 1 sin x dy 1 , find Let y = Cot dx 1 + sin x 1 sin x Ans: 1 2 2 Prove that 32) Ans: dy 1 x x = , Take 1 sinx = cos sin dx 2 2 2 33) dy 5 2 + 3x 1 4 x = + tan 1 , show that Let y = tan 2 3 2x dx 1 + 25x 2 1 + 5x 34) d 1 x 2 + 2x + 1 1 2x 1 1 + log 2 tan = Prove that dx 2 1 x 1 + x 4 x 2x + 1 2 2 4 2 13 1 1 x 2 1 2 x 1 x 2 35) If (x-a)2 + (y-b)2 = c2 for some c > 0 prove that dy 2 1 + dx d2 y dx 2 36) If 3 2 is a constant independent of a and b. 1 x 2 + 1 y 2 = a(x y), prove that y= x x sec 2 b + a + b a tan 2 dy 2 = log prove that x 2 2 dx (b + 1) (b a) tan2 x b a b + a b a tan 2 2 If 38) If y =| cos x | + | sin x |, find 39) 1 2 dy 1 y 2 = dx 1 x 2 1 37) Ans: Ans: = -c dy 2 at x = dx 3 ( 3 1); Take y = - cosx + sinx around x = 23 1 1 3 3 dy -1 x + a when y = tan 1 1 dx 1 x 3 a 3 Find 40) cos x + (tan 1 x) y = 1, find If y 1 2 3x 3 1 + dy 2x 1 | 2 and f (x) = sin x , find If y = f 2 dx x + 1 41) Ans : Ans: 2 x3 dy 2x 2 + 2x + 2 2x 1 = Sin 2 dx ( x 2 + 1)2 x + 1 2 dy dx (tan 1 x) y 1.y y cot x .cos ec 2 x.log y 1+ x 2 Ans: dy = cot x 1 y 1 1 dx y .cot x + (tan x) .log(tan x) Use logarithmic differentiation. 42) d2 y If x = cos + log tan , y = sin find 2 at = 2 4 dx Ans: 2 2 43) -1 5 sin x + 4 cos x 1 3 cos x 2 sin x Differentiate Cos w.r.t. Sin 13 41 Ans: 1 44) 1 1 2 If y = x + 1 log x + 1 + 2 x 45) dy 1 If x 1 + y + y 1 + x , prove that dx = (1 + x )2 46) Verify Rolle s theorem for the function f( x) = e1 x in the interval [-1,1] , find dy dx Ans : 2 14 dy x 2 + 1 + x 2 + 1 = dx x(1 + 1 + x 2 Ans: C = 0 47) It is given that for the function f(x) = x3-6x2+px+q on [1,3]. Rolle s theorem holds with C =2+ 1 3 . Find the values of p and q. 48) If f(x) and g(x) are functions derivable in [a,b] such that f(a) = 4, f(b) = 10, g(a) =1, g(b) =3. Show that for a < c < b, we have f|(c) = 3g|(c). 49) Using LMV Theorem, find a point on the curve y = (x-3)2, where the tangent is parallel to the chord joining (3,0) and (5,4) Ans: (4,1) 50) 5 Verify the Rolle s Theorem for the function f(x) = Sinx-Cosx in the interval , 4 4 Ans: C= ****** 15 3 4 APPLICATION OF DERIVATIVES 1) The slope of the tangent to the curve represented by x = t2+3t-8 and y = 2t2-2t-5 at the point M(2,-1) is (a) 7 6 2) (1,2) (1, ) 1 ( (c) 5 2 , 3 ) (d) (2,4) Ans: (b) and (c) (b) (-1, ) (c) (- , ) (d) (0, ) Ans: all (c) (O) 1 Sin3x has an extreme at x = 3 is 3 (d) 2 Ans: d (2,3) (b) 8 ,0 ( 18,0) (d) (d) none of these Ans: (a) 1 1 cos 2 x cos 3x is 2 3 2 3 Ans: (c) Ans: (b) If is the semivertical angle of a cone of maximum volume and given slant height, then tan is given by 2 If f( x) = (b) 1 2 (d) both f(x) and g(x) are increasing both f(x) and g(x) are decreasing f(x) is an increasing function g(x) is an increasing function 3 Ans: (c) Ans: (c) then f(x) is increasing on [ 1,2] f(x) is continuous on [ 1,3] f|(2) doesn t exist f(x) has the maximum value at x = 2 The function (a) (d) (c) x x and g(x) = where 0 x 1 then in this interval sinx tanx 3x 2 + 12x 1 : 1 x 2 If f( x) = : 2< x 3 37 x (a) (b) (c) (d) 11) (b) (2,3) (b) 8 7 (c) 9 4 (d) 3 8 If y = a log|x| + bx2+x has its extreme values at x = 1 and x = 2 then (a) a=2 b= 1 (b) a=2, b = (c) a= 2, b= (d) none of these (a) (b) (c) (d) 10) Ans (d) 7 The difference between the greatest and the least values of the function (a) 9) 6 (d) x2 y2 + = 1 so that the 8 18 area of the triangle formed by the tangent at P and the co-ordinate axes is the smallest are given by (a) 8) 2 (b) 1 f( x) = cosx + 7) 3 The co-ordinates of the point p(x,y) in the first quadrant on the ellipse (a) 6) (c) The value of a for which the function f(x) = aSinx + (a) 5) 3 The function y = tan-1x x decreases in the interval of (a) 4) 2 The function f(x) = 2 log (x 2) x2+4x+1 increases in the interval. (a) 3) (b) Ans: (a),(b),(c),(d) sin( x + ) has no maximum or minimum value if sin( x + ) = k (b) - k (c) - = 2k None of these where K is an integer. 16 Ans: (b) 12) If f( x) = x2 1 for every real number then minimum value of f x2 + 1 (a) does not exist (c) is equal to 1 13) Ans: (d) If the line ax+by+c = 0 is normal to the curve xy = 1 then (a) a>0, b>0 14) (b) is not attained even though f is bounded (d) is equal to 1 (b) a>0, b<0 (d) a<0, b>0 (d) a<0, b<0 Ans: (b),(c) The tangent to the curve x = a cos 2 cos y = a cos2 sin at the point corresponding to = 6 is (a) (c) 15) Parallel to the x-axis Parallel to the line y = x 0 (b) 7 If x = a( - sin ), y = a(1- cos ) then (a) 17) 1 a (b) If (b) cosx 0 (b) 3a + 2b = 5 Perpendicular 1 a (d) 1 2a Ans: (c) (c) secx (d) secx Ans: (d) 1 2 (c) 1 2 (d) does not exist Ans: (b) (b) 3a = 2+3b (c) 3,2 (d) none of these Ans: (b) (c) coincident (d) none of these Ans: (b) Parallel to x-axis (b) parallel to y-axis (c) Perpendicular to x-axis perpendicular to y-axis Ans: (a) y1=mx1+c (b) parallel (b) y1= mx1 The function f( x) = - , (a) 2 2 24) (c) If the slope of the tangent is zero at (x1, y1) then the equation of the tangent at (x1,y1) is (a) 23) 1 2 dy = 0 then the tangent is dx (a) (d) 22) d2 y at = 2 is dx 2 The tangents to the curve y = x3+6 at the points (-1,5) and (1,7) are (a) 21) Ans: (b) ax + 1 x 3 The values of a and b for which the function f( x) = bx + 3 x > 3 is continuous at x = 3 are (a) 20) (d) 10 C on LMV for f(x) = x2 3x in [0,1] is (a) 19) (c) 8 dy is If y = log tan + then dx 4 2 (a) 0 18) Ans: (a) The minimum value of f(x) = |3 x| + |2+x| + |5 x| is (a) 16) (b) Parallel to the y-axis (d) none of these (c) y y1 (d) y=0 Ans: (c) x + sin x is always increasing in 2 - (b) 0, (c) , (d) , 3 3 4 2 4 Ans: (d)\ The least value of a such that the function f(x) = x2+ax+1 is strictly increasing on (1,2) is (a) 2 (b) 2 (c) 17 1 2 (d) 1 2 Ans: (a) 25) The least value of f(x) = tan-1 (sinx + cosx) strictly increasing is (a) , (b) 0, 4 2 2 (c) 0 (d) none of these Ans: (d) 4-6 Marks 26) Determine the points of maxima and minima of the function 1 f( x)= log x bx + cx 2 where b 0 8 Ans: f has maxima at 2 = 27) 1 1 2 2 b b 1 and minima at = b + b 1 4 4 Find the interval in which the following functions are increasing or decreasing 10 2 (a) y = log x + 1 + x (b) y = 3 4x 9 x 2 + 6 x 1 1 , Ans: (a) increases on ( , ) (b) increases on ,1 and decreases on ( ,0) 0, (1 ) 2 2 28) Find the equation of normal to the curve y = (1 + x) y + sin 1(sin 2 x) at x = 0 29) If P1 and P2 are the lengths of the perpendiculars from origin on the tangent and normal to the curve x 30) 2 3 +y 2 3 =a 2 3 2 2 respectively Prove that 4P1 + P2 = a 2 What angle is formed by the y-axis and the tangent to the parabola y = x 2+4x 17 at ( ) the point P 5 2 , 3 4 ? 31) Ans: x+y=1 1 Ans: = 2 tan 9 A cone is circumscribed about a sphere of radius r. Show that the volume of the cone is maximum 1 1 when its semi vertical angle is Sin 3 32) Find the interval in which the function f(x) is increasing or decreasing f( x) = x 3 12 x 2 + 36 x + 17 Ans:Increasing in x<2 or x>6 Decreasing 2<x<6 33) 34) 35) Find the equation of tangent to the curve sum is intercepts on the axes is constant. Find the point on the curve y = x3 11x+5 at which the tangent has equation y = x 11 Ans: (2, 9) Find the equation of all lines having slope 1 and that are tangents to the curve y= 36) 37) 38) x + y = a at the point (x1, y 1 ) and show that the 1 ,x 1 x 1 Ans: x+y+1=0 ; x+y 3=0 Prove that the curves y2 = 4ax and xy = c2 cut at right angles if c4 = 32a4 Find the points on the curve y = x3 3x2+2x at which the tangent to the curve is parallel to the line y 2x + 3 = 0. Ans: (0,0) (2,0) Show that the semi vertical angle of a right circular cone of maximum volume and given slant height is tan 1 2 39) Show that the semi vertical angle of a right circular cone of given total surface area and maximum 1 volume is sin 1 3 18 40) Show that the right circular cone of least curved surface area and given volume is radius of the base. 41) Show that the height of a cylinder of maximum volume that can be inscribed in a sphere of radius R is 42) 2 times the 2R 3 Find the absolute maximum and absolute minimum value of f( x) = 2cosx + x x [ 0 , ] Ans: max at x = 6 and min at x = 5 6 43) Show that the volume of greatest cylinder which can be inscribed in a cone of height h and semi vertical angle is 44) 4 h3 tan2 27 A window is in the form of a rectangle above which there is a semicircle. If the perimeter of the window is P cm. Show that the window will allow the maximum possible light only when the radius of the semi circle is 45) P cm +4 x2 y2 Find the area of the greatest isoscles triangle that can be inscribed in a given ellipse 2 + 2 = 1 a b with its vertex coinciding with one extremity of the major axis. 46) A rectangular window is surmounted by an equilateral triangle. Given that the perimeter is 16 cm. Find the width of the window so that the maximum amount of light may enter. 47) Show that the volume of the greatest cylinder which can be inscribed in a cone of height h and semi vertical angle 30o is 48) 4 h3 81 Show that the height of the right circular cylinder of maximum volume that can be inscribed in a given right circular cone of height h is h 3 . 49) 50) Of all the rectangles each of which has perimeter 40 metres find one which has maximum area. Find the area also. Show that the rectangle of maximum area that can be inscribed in a circle of radius r cms is a square of side 51) 2r Prove that the volume of the largest cone that can be inscribed in a sphere of radius R is the volume of the sphere. 52) 8 of 27 Show that the semi vertical angle of the cone of maximum volume and of given slant height is tan 1 2 53) Given the sum of the perimeters of a square and a circle show that the sum of their areas is least when the side of the square is equal to the diameter of a circle. 54) Find the maximum slope of the curve f( x) = 2x + 3x 2 x 3 27 55) Show that the height of the cone of maximum volume that can be inscribed in a sphere of radius 12 cm is 16 cm. 56) A point on the hypotenuse of a right angled triangle is at distances a and b from the sides. Show 2 2 that the length of the hypotenuse is at least a 3 + b 3 19 3 2 57) Sand is pouring from a pipe at the rate of 12cm3/sec. The falling sand forms a cone on the ground in such a way that the height of the cone is always one-sixth of the radius of the base. How fast is the height of the sand cone in increasing when the height is 4 cm? 1 cm/ sec. 48 Ans : 58) A man 160 cm tall walks away from a source of light situated at the top of the pole 6m high at the rate of 1.1 m/sec. How fast is the length of the shadow increasing when he is 1m away from the pole. Ans: 0.4 cm/sec. 59) An edge of a variable cube is increasing at the rate of 5 cm/sec. How fast is the volume of the cube is increasing when edge is 10cm long? Ans: 1500 cm3/sec. 60) A balloon which always remains spherical is being inflated by pumping in gas at the rate of 900 cm3/sec. Find the rate at which the radius of the balloon is increasing when the radius of the balloon is 15 cm. Ans: 1 cm/ sec. 61) The volume of a spherical balloon is increasing at the rate of 25 cm3/sec. Find the rate of change of its surface area at the instant when the radius is 5 cm. Ans: 10 cm2/sec. 62) The surface area of a spherical bubble is increasing at the rate of 2 cm2/sec. Find the rate at which the volume of the bubble is increasing at the instant if its radius is 6 cm. Ans: 80 cm2 / sec. 63) Gas is escaping from a spherical balloon at the rate of 900 cm3/sec. How fast is the surface area, radius of the balloon shrinking when the radius of the balloon is 30cm? Ans: 64) dA dr 1 = 60cm2 / sec . = cm/ sec . dt dt 4 Water is passed into an inverted cone of base radius 5 cm and depth 10 cm at the rate of 3 c.c./ sec . Find the rate at which the level of water is rising when depth is 4 cm. 2 Ans: 3 cm/ sec. 8 65) Show that the function f(x) = e2x is strictly increasing on R. 66) Show that f(x) = 3x5 + 40x3 + 240x is always increasing on R. 67) Find the interval in which the function f(x) = x4 4x3+4x2+15 is increasing or decreasing. 68) Find whether f( x) = cos 2 x + 4 69) Find the interval in which the function ( )38 < x < 58 is increasing or decreasing. 4.sin x 2 x x cos x is increasing or decreasing. 2 + cos x ( ) 3 ,2 Ans: 0, 2 2 70) FInd the interval in which f(x) = 8+36x+3x2 2x3 is increasing or decreasing. Ans: Increasing : 2 < x < 3 decreasing : x > 3 or x < 2 71) Find the interval on which the function x is increasing or decreasing. log x Ans: Increasing in ( (e, ) decreasing for (0,1)U(1,e) 20 72) Find the points on the curve x2 y2 + = 1 at which the tangents are parallel to x-axis and parallel 4 25 Ans: (0, 5), ( 2,0) to y-axis. 73) 3 3 Find equation of tangents to the curve x = acos , y = bsin at = 4 74) Find the equations of the normal lines to the curve y = 4x3 3x+5 which are parallel to the line 9y+x+3 = 0. 75) Ans: x+9y-55=0, x+9y-35=0 2 FInd the equation of tangent and normal to the curve y = x3 at (2, 2) 4 x Ans: 2x+y 2=0, x 2y 6=0 76) FInd the equation of the tangent to the curve a2 a2 x + y = a at the point , 4 4 Ans: 2x+2y=a2 77) Find the angle between the parabolas y2=4ax and x2=4by at their point of intersection other than 1 1 3a 3 b 3 = tan 1 Ans: 2 a 2 3 + b 2 3 the origin. 78) Using differentials find the appropriate value of (82 ) 14 79) If y = x4 10 and if x changes from 2 to 1.97, what is the appropriate change in y ? Ans: 3.0092 Ans: 0.96, y changes from 6 to 5.04 80) Find the appropriate change in volume of a cube when side increases by 1%. Ans: 3% 81) 17 Use differentials to evaluate 81 82) Using differentials evaluate tan 44o approximately, 1o = 0.07145o. Ans: 0.9651 83) Find the approximate value of x if 2x4 160 = 0 Ans: 2.991 84) Find the maximum and minimum values of f , if any of the function f(x) = |x|, x R 85) Find the maximum and minimum value of f(x) = |(sin4x+5)| without using derivatives. 86) The curve y = ax3+6x2+bx+5 touches the x-axis at P(-2,0) and cuts the y-axis at a point Q where its gradient is 3. Find a,b,c. 1 4 approximately. Ans: 0.677 Ans: a = 1 3 b= , c=3 2 4 87) FInd the local maxima and local minima if any of the function f(x) = e5x 88) Find the maxima or minima if any of the function f(x) = 1 2 x +2 Ans: local max at x = 0, value 89) 1 2 Without using derivatives find the maximum or minimum value of f(x) = |x+5| + 3 Ans: max value 3, no minimum value 21 90) Without using derivatives find the maximum and minimum value of f(x) = sin2x + 7 Ans: Max. value 8, min. value 6 91) FInd whether f(x) = ex has maxima or minima. 92) At what point in the interval [0,2 ] does the function Sin2x attain its maximum value? 93) Find the intervals in which f(x) = logcosx is strictly decreasing and strictly increasing. Ans: No maxima nor minima ( ) ( Ans: decreasing 0, 2 , increasing 2 , ) 94) Find the interval in which y = x2e x is increasing. Ans: (0,2) 95) Find two positive numbers x and y such that their sum is 16 and sum of whose cubes is minimum. Ans: 8,8 96) Find the local maximum and local minimum value of the function. f( x) = sinx + [ 1 cos 2 x in 0, 2 2 ] Ans: local max. value 3 at x = 4 6 97) Two equal sides of an isosceles triangle with fixed base b are decreasing at the rate of 3cm/sec. How fast is the area decreasing when the two equal sides are equal to the base? 98) A poster is to contain 50cm2 of matter with borders of 4 cm at top and bottom and of 2 cm on each side. Find the dimensions if the total area of the poster is minimum. 99) Find the sides of a rectangle of greatest area that can be inscribed in the ellipse x 2 + 4 y 2 = 16 Ans: 4 2 , 2 2 100) Find the maximum profit that a company can make if the profit function is given by P( x) = 41 - 24x - 18x 2 Ans: 49 ****** 22 INTEGRATION Objective Questions - choose the correct alternative 1) cos x x dx = (a) sin x 2) (d) (b) log sec(logx) (c) log sin(logx) (d) logcos(logx) (b) 2 cot x (c) (d) tan x sin x cos x dx = (a) 2 tan x 4) (c) 2 sin x tan(log x) dx = x (a) log cos(logx) 3) dx sin x + (a) 3 cos x a 6) 2 sin 2 xdx cos 2 x + b 2 sin 2 x 2 1 b a 2 1 (d) log cos ec x + + cot x + 2 3 3 = (d) 1 log(a 2 cos2 x + b 2 sin2 x) b a 2 1 a + b2 log(a 2 cos 2 x + b 2 sin2 x) e x dx = e2x + 1 x 3 a x3 2 x (a) 3 a 8) (b) log(a 2 cos 2 x + b 2 sin 2 x) (a) log(e x + e x ) 7) tan x 1 1 x log tan + (b) log cos ec x + cot x + 2 3 3 2 2 6 (a) (b a) log(a 2 cos2 x + b 2 sin2 x) (c) cot x = 1 (c) log sec x + tan x 2 6 6 5) cos x x (b) 2 cos x x e 3 x2 3 (c) tan 1(e x ) (b) log(e 2x + 1) (d) tan 1(2e x ) dx = 2 (b) 2 1 x sin 3 a 3 2 (c) 2 x cos 1 3 a 3 2 (d) 2 1 a sin 3 x dx = 2 2x (a) x (e 1) (b) 1 2 x2 x (e 1) 2 (c) 1 x2 2 1 x2 e (x 1 (d) ) (e 1 ) 2 2 23 3 2 9) x sin 1 x 1 x 2 1 x 2 sin 1 x (a) 10) dx = x tan 1 ( ) x 2 + 1 tan 1 x x (c) x 2 + 1 tan 1 x x (b) 2 + x 2 (b) xtan x 2 (C) cot x 2 (d) xcot x 2 sin2 x cos2 x dx = sin2 x. cos2 x x dx 1 x 3 (b) tan x cot x (c) tan x + sec x (d) tan x + cos ecx = 1 1 x 2 + 1 1 1 x 2 1 (b) log (a) 3 log 3 1 x 2 1 1 x3 + 1 2 (c) 3 log 14) dx x X (a) 15) 3 1 1 x (d) 3 1 log 1 x 3 3 = 1 x2 1 1 x 2 (1- x ) log (b) log 2 (c) log 2 2 2 x(1 + x) 1 x x (d) logx(1- x 2 ) 1 + x 2 d(x 2 ) = (a) 16) 2 x + sin x (a) tan x + cot x 13) ) 1+ cos x dx = (a) tan 12) (d) sin-1x x dx = x 2 + 1 x 1 (a) 2 tan x 2 11) ( (c) x - 1- x 2 sin 1 x (b) xsin-1x ( 2 1+ x 2 3x 2 xdx 1+ x 4 ) 3 2 (b) ( 2 1+ x 2 3 ) 3 2 (c) 2x 1+ x2 3 ( ) ( 1 (d) tan 1 2 x 3 2 (d) ( 2x 1+ x 2 3 = () 1 2 (a) tan x (b) 1 tan 1 x 2 2 (c) log 1 + x 4 ) 24 ) ( ) (d) x 2 + 1 tan 1 x + x 3 x dx 17) = 1 9x 1 1 x 1 x (a) log e 3 sin (3 ) (b) log 3 sin (3 ) e 18) 1 dx = 4 x(x 1 ) x4 log 4 (a) x 1 19) (b) 1 x 2 + 1 log 2 2 x + 1 (c) x 4 1 1 log 4 4 x (d) log x( x 2 1) x2 + 1 1 elog 1 + 2 dx x = 1 x2 + 2 x (a) 20) x 1 sin 1(3 2 ) loge 3 x (c) log e 3 sin 1(3 2 ) (d) 1 1 tan x + x 2 1 dx (2 + x) 1+ x 1 = 1 (a) 2 tan 1 + x (b) dx 1 x x (c) 2 tan 1 x + 1 (d) 1 tan 1 1 x (b) tan x 2 2 2 x 1 21) x+ 22) { 1 tan 1 1 + x (c) tan 1 1 + x (d) log (2 + x) 1 + x 2 1 (b) log(1 + x ) (c) 2 log(1 + x ) 2 } Ssin2x log cosx dx = (a) 23) = (a) log(1 + x ) x 1 1 cos2 x cos2 xlogcosx (b) cos2 x + cos2logcosx (c) cos2 x.log cos x(d) cos2 x(1 log cos x) 2 2 dx (x + 1)(x 2) = Alog(x + 1) + Blog(x - 2) + C, then If (a) A+B = 0 24) If tan (a) a = 25) If (d) log(x + x ) 4 (b) AB = (c) AB = 1 9 (d) AB = 9 x dx = a tan3 x + b tan x + cx, then 1 3 (b) b = 1 (c) a = 1 (d) c = 1 cos x cos(x a)dx = Ax + B log cos (x - ), then (a) A = cos (b) B = sin (c) A = sin (d) B = cos Answers : 1. (c) 2. (b), (d) 3. (a) 4. (a), (b), (c), (d) 5. (c) 6. (c) 7. (b) 8. (c) 9. (c) 10. (a) 11. (b) 12. (a) 13. (b) 14. (a) 15. (b) 16. (a) 23. (a), (c) 24. (a), (b), (d) 17. (b) 18. (c) 19. (b) 20. (a) 21. (c) 22. (a) 25. (a), (b). 25 EVALUATE 26) 27) 10 x Ans : | x | +c 2 | x | dx x 10 x + + x 10 + 1010 dx x 10 10 x 101 2 x11 x + 10 log | x | + + + 1010 x + c log 10 20 11 Ans: (a + 10 x + x ) x2 x +b a xb x 28) 29) 1+ sin x dx 30) cos 1(sin x)dx 31) 3 2 x e 2 x dx 32) sin dx 1 2 Ans : tanx - secx + c Ans : Ans : 1 dx x cos2 x 34) 1+ x Sin2 2 tan 1 1 x 35) sin x + cos x 36) a 37) x + sin 38) sin x cos x dx 39) a x dx a+x 40) e x 41) x + log sec x dx 1 + sin 2 x dx 2 x dx tan x 1 1 dx 1 + tan x 2 log 3e -| x 1 Ans : x - x3 +c 3 Ans : x + c dx cos2 x + b 2 sin2 x 1 + sin 2 x (3e ) 2 x Ans : x - 2tan-1x + c sin 2x 2 x2 x +c 2 2 Ans : tanx - cotx + c e 2 log x 1 dx e 2 log x + 1 33) x a b b + a + 2x + c Ans: a b log b log a dx Ans : 1 b2 a 2 log(a 2 cos2 x + b 2 sin2 x) + c An s : log | x + sin2 x | + c Ans : 2 tanx + c A ns : a sin-1 x + a2 x 2 + c a Ans : log | e x 1| x + c A ns : log | x + logsecx | + c 26 42) 1+ 43) x 23 Ans : 2log ( x + 1) + c dx x 2x 1 dx Ans : dx 44) sin x sin(x + ) e 46) a sin2 x (x + 1) x2 + 1 x > -1 , 49) 3 sin x + 4 cos x dx Ans : 2 sin x + 3 cos x 1 1 x + cos 1 x 51) x dx Ans : 52) S tan d Ans : 53) 54) Ans : sin 1 x cos 1 x sin 4 +1 2X X 2 2 2 2 2 X dx sin x + cos x sin 4 x + cos4 x Ans: 2 sin sin( x + ) +c sin x 1 a tan x tan 1 +c ab b Hint : - x + 1 = 1 dx 4 + 5 cos x 48) 50) Ans : 2 dx sin(x + ) =t sin x Ans : e sin2x + c sin 2x dx dx sin x + b 2 cos2 x 2 4 3 (2x 1) 3 (56 x 2 + 24 x + 9) + c 1120 Hint : Put 3 45) 47) 1 22 Ans : - 1 x 2 + 2 x 2 1 log x +1 2 | +c 3 + tan x 2 1 log +c 3 3 tan x 2 18 1 x+ log 3 sin x + 4 cos x + c 25 25 dx Ans : 1 1 t tan 1 2 { x x x2 1 2x 2 } (1 2 x) sin 1 x x + c 1 42 log x 2 2x + 1 x 2 + 2x + 1 +c tan 1 1 tan 2 tan + 1 + tan 1 log +c 2 tan + 2 tan 2 tan 2 2 1 Ans : 2x 1 22 + c (log2)3 dx Ans : 1 1 log 2 2 2 + 1 2 +1 + t 2 +1 t + 1 2 2 1 tan 1 +c 2 1 t Where t = sinx cosx 8 1 x dx Ans : log(x + 2) - log(x 2 + 4) + tan 1 + c 2 2 + 4) 55) (x + 2)(x 56) (1 + sin x)(2 + sin x) dx 57) 2 cos x 1 + sinx Ans : log +c 2 + sinx cos 2x 1 1+ t 1 2 +t dx Ans : log + log +c sin x 2 1 t 2 2 t 27 Where t = 1 tan 2 x 58) 1 tan x 2 Ans : log +c 5 2 tan x + 1 dx (sin x 2 cos x)(2 sin x + cos x) Hint: divided n r and D r by cos2x 59) 60) a3 x 3 dx x(x 7 + 1 ) 61) 2 2 x2 Ans : sin 1 3 + c 3 a2 dx 1 x7 Ans : log 7 +c 7 x +1 1 + cos x (1 cos x) 7 3 62) 3 x 2 dx Ans : 4 log(1+ tan )d Ans : 0 63) 2 0 64) 3 0 dx 2 2 (a sin x + b 2 cos2 x)2 cos x dx 3 + 4 sin x 1 65) 4 dx Ans : Ans : (a 2 + b 2 ) Hint: divide Nr and Dr by Cos4x 4 a 3 b3 8 2 x cos x dx 0 67) log 2 8 1 3+2 3 Ans : log 4 3 0 3 66) x 1+ x 7 3 2 1 2 cos x + 4 sin x dx Ans : 5 - 2 2 2 Ans : 0 2 68) x 2 + 2 x 3 dx Evaluate 2 70) 5 log Ans : 4 0 69) 1 x sin x 1 + cos 0 2 x cos 4 x dx Ans : 2 dx A ns : 3 8 2 4 71) log(1 + cos x)dx 0 ans : - log2 28 3+ 5 2 72) x tan x sec x cos ecx 0 1 73) x(1 x) dx n 0 74) 2 log tan x Ans : 2 Ans : 1 1 n+1 n+ 2 Ans : I = 0 0 0 75) xdx 1+ sin x + cos x 76) 2 cos 4 x dx Ans : 2 log 2 Ans : 2 3 8 8 77) x + 3 dx 5 2 78) sin 2 a b cos d 1 79) dx x +1 + x 0 80) a>b>0 Ans: I = 0 0 23 Ans : 3 2 1 3 4 Ans : 3 5 Ans : sin 2x sin 3x dx 2 2ab 0 81) a 4 Ans : 2 - 2 4 4 sin x dx 84) cos 2 x + b 2 sin2 x sin x dx 83) 2 0 82) x dx 2 Ans : 2 - 2 4 sin x cos x 1+ sin x cos x dx Ans : 0 0 a 85) x+ 0 dx a2 x2 Ans : 4 29 4 86) [ x 1 + x 2 + x 3 ]dx 1 87) x 20 12 x x + 12 x 3 1 89) Ans : 0 dx Ans : 3 4 x log 4 + x dx Ans : 0 1 90) sin 9 x d x 2 1 2 cos x + 4 sin x dx Ans : 0 91) 2 log(cos )d Ans : 0 2 x(1 + sin x) 1 + cos 2 x 1 93) x 0 94) 1 x2 1+ x2 Ans : dx 2 1 5 log 3+ 5 2 - log 2 2 92) 19 2 9 88) Ans : Ans : 2 1 42 1 cos(x 3)cos(x 6) Ans : 2log 3 + log 2 0 95) (sin x 1 4 1+ x 0 97) 2 1+ 1 2 1 tan x 1 x dx 1+ x 0 99) ) A ns : 0 4 2 tan 3 Ans : 4 dx tan x 0 98) x + x 295 16 96) 93 x dx dx Ans : 4 Ans : 1 2 Ans : 1- log2 0 100) 3 1+ 6 dx tan x Ans : 12 ******* 30 APPLICATION OF INTEGRALS 1) Find the area bounded by the curve y = 2 cosx and the x-axis from x = 0 to x = x = 2 Ans: 8 sq.units. 2) 8 and the ordinates x = 2 and x2 x = 4 If the ordinate at x = a divides the area into two equal parts find a Find the area bounded by the x-axis part of the curve y = 1 + Ans: Note 2<a<4 a = 2 2 a3 sq.units. 3 3) Find the area included between the parabolas y2=4ax and x2=4ay Ans: 16 4) Find the area of the segment cut off from the parabola y2=2x by the line y=4x-1 Ans: 9 sq.units 32 5) 64 2 16 + Show that the area enclosed by the circle x2+y2 = 64a2 and the parabola y2= 12ax is a 3 3 6) Sketch the region bounded by the curves y = 5 x 2 and y = x - 1 and find its area. Ans: 7) Find the area of the region bounded by the curve C. y = tanx the tangent drawn to C at 1 1 Ans: log 2 2 2 x = 4 and the x-axis. 8) Find the area of the region lying above x-axis and included between the curves 2 2 Ans: a 4 3 x2+y2 = 2ax and y2 = ax 9) 5 1 2 1 1 + Sin 1 Sin 2 5 5 2 Sketch the region bounded by the curves y = x2 and y = 2 2 and find its area. 1+ x Ans: 10) Find the area of the smaller region bounded by the curve xy + =1 43 11) 2 3 x2 y2 + = 1 and the straight line 16 9 Ans: sq.units. 3 Using integration find the area of the triangle ABC where A is (2,3) B(4,7) and C(6,2) Ans: 4 sq.units. 12) Using integration find the area of the triangle ABC whose vertices are A(3,0), B(4,6) and C(6,2) Ans: 8 sq.units. 13) Find the area included between the curves (x-1)2+y2 = 1 and x2+y2 = 1 2 3 Ans: 3 2 sq.units. 31 14) Sketch the region common to the circle x2+y2 = 25 and the parabola y2 = 8x also find the area of the region using integration. 2 Ans : 3 ( 41 4 ) 3 2 + 25 25 1 41 4 sin 4 2 5 15) Find the area of the circle x2 + y2 = a2 Ans: a2 sq.units. 16) Sketch the region of the ellipse and find its area using integration. x2 y 2 + =1 a 2 b2 a>b Ans: ab sq.units. { 17) 2 Find the area of the region given by : (x, y) : x y x 18) } 1 Ans : sq.units 3 Find the area of the region {(x, y) : y 2 } 4 x, 4x 2 + 4 y 2 = 9 2 9 9 1 1 Ans : + sin 8 4 3 sq.units. 6 19) Find the area of the region bounded by the circle x2+y2 = 16 and the line y = x in the first quadrant. Ans: 2 sq.units. 20) Find the area of the smaller region bounded by the ellipse xy + =1 ab 21) x2 y2 + = 1 and the straight line a 2 b2 Ans: ab ( 2) sq.units. 4 Find the area bounded by the curve y = sinx, x=axis and between x = 0 , x = Ans: 2 sq.units. 4 x 1dx 22) Sketch the graph of y = |x-1| and evaluate 23) 1 2 Find the area of the region enclosed between the circles x2+y2 = 1 and x + y = 1 2 2 Ans: 9 sq.units. 2 2 3 + 15 1 2 sin 1 + sq.units. Ans: 16 4 24) Draw the rough sketch of y = sin2x and determine the area enclosed by the lines x = 4 and x = Ans: 1 sq.units. 25) Compute the area bounded by the lines x+2y = 2, y-x = 1 and 2x+y = 7. Ans: 6 sq.units. ***** 32 3 4 HOTS : DIFFERENTIAL EQUATIONS 1) () 2 Write the order and degree of the differential equation. 1 + y| 3 2 = y|| (Ans: 2,2) 2) Form the differential equation of the family of curves represented by the equation (x + a )2 2 y 2 = a 2 3) (Ans: x 2 + 2y 2 4 xyy| = 0 ) d2 y Write the order and degree of the diff. equation 2 dx 2 3 dy = y + dx 1 2 (Ans: 2,4) 4) Form the differential equation of circles represented by 3 (x )2 + (y )2 2 dy 2 2 d y Ans: 1 + = r 2 dx dx 2 = r by eliminatin g and 2 5) d2 y dy 2 dy x y 2 + Show that Ax +By = 1 is a solution of the diff. equation. dx dx = y dx 6) Solve (x + y + 1) dy =1 dx 7) 2 Solve : (x + y ) dy = a2 dx 8) Solve : x 9) 2 Solve : ydx - (x + 2y )dy = 0 10) 2 2 2 Solve : x x + y y dx + xydy = 0 11) Solve : 12) 33 Solve : (x y + xy) 13) Solve : x 3 3xy 2 dx = y 3 3x 2 y dx 14) Solve : 1 y 2 dx = sin 1 y x dy 15) Solve the differential equation : 2 2 [Ans : x = ce y y 2] -1 x + y Ans : (x + y) - atan a = x + c dy ) = y(log y log x + 1 dx [Ans : y = xe cx ] x Ans : = 2 y + c y y 2 2 Ans : x + y + log x = Cx 5 3 1 1 1 1 dy ) = cos3 x sin4 x + x 2x + 1 Ans : y = sin5 x sin7 x + (2 x + 1) 2 (2x + 1 2 + c 5 7 10 6 dx ( 3 5 3 2 y 2 1 2 y2 2e y + c Ans : e x = y e dy =1 dx ) ( [ (x 2 y + y 2 x)dy = ( x 3 + y 3 )dx ) ] [Ans : x 2 y 2 = C( x 2 + y 2 )2 ] [Ans : x = (sin y 1)+ Ce ] -1 y Ans : - x = log(x y) + c 33 sin 1y dy y 2 + y + 1 = =0 dx x 2 + x + 1 [Ans :(x + y + 1) = C(1- x - y - 2xy)] 16) Solve : 17) Solve : x 3 3xy 2 dx = y 3 3x 2 y dy 18) Solve : 19) xdx + ydy = Solve : xdy ydx ( ) ( ) [Ans : x y 2 = c(x 2 + y 2 )2 [Ans : y dy x 2 + y 2 + 1 , where y(1) = 1 = dx 2 xy a2 x 2 y 2 x2 + y2 2 2 ] ] = x2 + x 1 2 2 1 y Ans : x + y = a sin c + tan x (Hint : take x = r cos , y = rsin , so that x 2 + y 2 = r 2 ] 20) When the interest is compounded continuously, the amount of money invested increases at a rate proportional to its size. If Rs.1000 is invested at 10% compounded continuously, in how many years will the original investment double itself? [ Ans : 10 log 2 years] e 21) A population grows at the rate of 8% per year. How long does it take for the population to double? 25 Ans : 2 log 2 years 22) A wet porous substance in the open air losses its moisture at a rate proportional to the moisture content. If a sheet hung in the wind loses half of its moisture during the first hour, when will it have lost 95% moisture, weather conditions remaining the same. log 20 Ans : log 2 23) The surface area of a balloon being inflated, changes at a rate proportional to time t. If initially its radius is 1 unit and after 3 seconds it is 2 units, find the radius after time t . t2 Ans : r = 1 + 3 24) A curve passing through the point (1,1) has the property that the perpendicular distance of the origin from the normal at any point P of the curve is equal to the distance of p from the x-axis. Determine the equation of the curve. [Ans : x 25) 2 + y 2 = 2x ] Newton s law of cooling states that the rate of change of the temperature T of an object is proportional to the difference between T and the (constant) temperature t of the surrounding medium. We can write it as dT = k(T t), k > 0 constant. dt A cup of coffee is served at 185oF in a room where the temperature is 65oF. Two minutes later the temperature of the coffee has dropped to 155oF. (log 3/4=0.144, log3 = 1.09872). Find the time required for coffee to have 105oF temperature. (Ans: 7.63 min.] ****** 34 HOTS : VECTORS 1) Find the unit vector perpendicular to both the vectors a = 4 i j 3k and b = 2 i + 2 j - k 2) Ans : ( 1 i + 2 j + 2k 3 ) If = 3 i j and = 2 i + j - 3 k . Express as a sum of two vectors 1 & 2 , where 1 is parallel to and 2 is perpendicular to . 3) If a + b + c = 0, show that a x b = b x c = c x a 4) Prove the triangle inequality a x + b a + b 5) Prove Cauchy - Schawarz inequality : a.b 6) If a and b are vectors, prove that a x b + a.b 7) Prove that angle in a semi-circle is a right angle. 8) If a and b are unit vectors inclined at an angle , then prove that () 2 2 a) cos 1 = a+b 22 b) tan 2 a .b () 2 2 2 = a .b 2 a b = 2 a+b ax b + b x c + c xa 9) Show that the perpendicular of the point c from the line joining a & b is (Hint : use area of triangle = b a 1 bh ) 2 10) Show that the area of the parallelogram having diagonals 3 i + j 2k and i - 3 j + 4 k is 5 3 11) Vectors 2 i j + 2k and i + j - 3 k act along two adjacent sides of a parallelogram. Find the angle between the diagonals of the parallelogram. 12) L and M are the mid-points of sides BC & DC of a paralellogram ABCD. Prove that AL + AM = 13) 3 AC 2 Let a, b & c be three vectors such that a = 3, b = 4, c = 5 and each one of them being perpendicular to sum of the other two, find a + b + c 14) Prove that the area of a paralellogram with diagonals a and b is 15) If [Ans : 5 2 ] 1 axb 2 111 , , are the p th, qth and r th terms of an AP and abc u = (q r )i + (r p) j + (p q)k & v = 1 1 1 i + j + k then prove that u & v are orthogonal vectors. a b c 35 a b c = = sin A sin B sin C 16) In a triangle ABC, prove that 17) Using vector method prove that : a) sin(A+B) = sinAcosB + cosAsinB b) sin(A-B) = sinAcosB cosAsinB c) cos(A+B) = cosAcosB sinAsinB d) cos(A-B) = cosAcosB + sinAsinB 18) 1 1 Using vector method, show that the angle between two diagonals of a cube is cos 3 19) Prove that the altitudes of a triangle are concurrent. 20) Prove that the perpendicular bisectors of a triangle are concurrent. 21) Using vector method, prove that if the diagonals of a parallelogram are equal in length, then it is a rectangle. 22) Using vector method, prove that if two medians of a triangle are equal, then it is an isosceles. 23) Using vector method, show that the diagonals of a Rhombus bisect each other at right angles. 24) Prove by vector method, that the parallelogram on the same base and between the same parallels are equal in area. 25) If a, b & c are the lengths of the sides opposite respectively to the angles A, B & C of a ABC , using vector method show that a) cos A = 26) b) a = b cos C + C cos B If D, E & F are the mid-points of the sides of a triangle ABC, prove by vector method that area of DEF = 27) b 2 + c2 a 2 2bc 1 (area of ABC) 4 If a, b & C are the lengths of the sides of a triangle, using vector method, show that its area is s(s a)(s b)(s c) ***** 36 HOTS : 3D GEOMETRY ( )( ) ( ) 1) Show that the line r = 2 i 2 j + 3k + i j + 4 k is parallel to the plane r. i + 5 j + k = 5 2) Find the equation of the plane passing through the point (1,4,-2) and parallel to the plane 2x+y 3z=7 [Ans:2x y+3z+8=0] 3) What are the conditions that the planes a1x+b1y+c1z = d1 & a2x+b2y+c2z = d2 are (i) parallel (ii) perpendicular to each other? a1 b1 c1 Ans: (i) a = b = c 2 2 2 4) Find the value of k for which the two lines (ii) a1a 2 + b1b 2 + c1c2 = 0 x 1 y + 1 z 1 x-3 y k = = and = =z 2 3 4 1 2 9 Ans : k = 2 intersect at a point? 5) Find the equation of the plane passing through the point (1,6,3) and perpendicular to the plane 2x+3y z = 7 (Ans: 3x+y+9z = 36) 6) Find the value of k for which the lines co-planar. x 2 y 3 z 4 x 1 y 4 z 5 = = and = = are 1 1 k k 2 1 [Ans: k = 0, 3} 7) Find the equation of the plane passing through the point (1,1,1) and perpendicular to each of the plane x+2y+3z = 7 and 2x 3y+4z = 0 [Ans: 17x+2y 7z 12 = 0] 8) Show that the lines intersection. x 1 y 2 z 3 x -4 y 1 = = and = = 2 intersect. Also find the point of 2 3 4 5 2 [Ans: ( 1, 1, 1] 9) Find the image of the point (1,2,3) in the plane x+2y+4z = 38. 10) Find the equation of the plane passing through the points (1, 1,2) and (2, 2,2) and perpendicular to the plane 6x 2y+2z = 9. [Ans: x+y 2z+4 = 0] 11) Find the foot of the perpendicular drawn from the point A(1,0,3) to the join of the points B(4,7,1) 5 7 17 Ans : 3 , 3 , 3 and C(3,5,3) 12) [Ans: (3,6,11)] Find the length and co-ordinates of the foot of perpendicular from point (1,1,2) to the plane 2x 2y+4z+5 = 0 13 6 1 25 1 , - , , Ans : 12 12 12 6 13) Find the equation of the plane through the points ( 1,1,1) and (1, 1,1) perpendicular to the plane x+2y+2z = 5 (Ans: 2x+2y 3z+3 = 0) 14) Find the perpendicular distance of point (2,3,4) from the line 4 x y 1 z == 2 6 3 1 Ans : 49 44541 15) The foot of the perpendicular drawn from the origin to the plane is (2,5,7). FInd the equation of the plane. [Ans: 2x+5y+7z = 78] 37 16) Find the values of P so that the lines 1 x 7 y 14 z 3 7 - 7x y 5 6 z = = and = = are at 3 2p 2 3p 1 5 70 Ans : 11 right angles. 17) Find the shortest distance between two lines whose vector equations are 8 Ans : 29 r r r = (1 t)i + (t 2) j + (3 2t)k and r = (s + 1) i + (2s - 1) j - (2s + 1) k 18) Find the vector equation of the plane through the intersection of the planes r.(2 j + 6 j) + 12 = 0 & r .(3 i - j + 4k) = 0 which are at a unit distance from the origin. [Ans : r.( i + 2 j 2k )+ 3 = 0] 19) Find the equation of the line passing through the point (3,0,1) and parallel to the planes [Ans : r = (3i + k) + ( 2i + j + 3k)] x+2y = 0 and 3y z = 0 20) 73 6 39 , Find the reflection of the point (1,2, 1) in the plane 3x 5y+4z = 5 Ans : , 25 5 25 21) Find the distance of the point (1, 2,3) from the plane x y+z = 5 measured parallel to the line 22) x +1 y + 3 z +1 = = 2 2 6 [Ans: 1] Find the distance of the point (2,3,4) from the line x+3 y 2 z = = measured parallel to the 3 6 2 plane 3x+2y+2z+5 = 0 23) A line makes angles , , and with the four diagonals of a cube. Prove that cos2 + cos2 + cos2 + cos2 = 24) 4 3 A variable plane which remains at a constant distance 3p from the origin cuts the co-ordinate axes at A, B & C. Show that the locus of the centroid of the ABC is 25) 1 x 2 + 1 y 2 + 1 z 2 = 1 p2 A variable plane is at constant distance p from the origin and meet the axes in A, B & C. Show that the locus of the centroid of the tetrahedron ABC is ***** 38 1 1 1 16 + 2+ 2= 2 2 x y z p LINEAR PROGRAMMING 4 Marks/6 marks 1) 2) 3) 4) 5) 6) A toy company manufactures two types of doll; a basic version-doll A and a deluxe version doll B. Each doll of type B takes twice as long as to produce as one of type A, and the company would have time to make a maximum of 2000 per day if it produces only the basic version. The supply of plastic is sufficient to produce 1500 dolls per day (both A and B combined). The deluxe version requires a fancy dress of which there are only 600 per day available. If company makes profit of Rs.3 and Rs.5 per doll, respectively, on doll A and B; how many each should be produced per day in order to maximize profit. Ans: Type A = 1000, Type B = 500, Max. profit = Rs.5500 A dietician has to develop a special diet using two foods P and Q. Each packet (containing 30 g) of food P contains 12 units of calcium, 4 units of iron, 6 units of cholesterol and 6 units of vitamin A, while each packet of the same quality of food Q contains 3 units of calcium, 20 units of vitamin A. The diet requires atleast 240 units of calcium, atleast 460 units of iron and almost 300 units of cholesterol. How many packets of each food should be used to maximize the amount of vitamin A in the diet? What is the maximum amount of vitamin A? Ans: 40 packets of food P and 15 packets of food Q Maximum at (40,15) = 285 An oil company has tow depots A and B with capacities of 7000L and 4000L respectively. The company is to supply oil to three petrol pumps D, E and F whose requirements are 4500L, 3000L and 3500L respectively. The distances (in km) between the depots and the petrol pumps is given in the following table: Distance in km From/To A B D 7 3 E 6 4 F 3 2 Assuming that the transportation cost of 10 litres of oil is Rs.1 per km, how should the delivery be scheduled in order that the transportation cost is minimum. Ans: From A : 500, 3000 and 3500 litres, From B : 4000, 0, 0 litres to D, E and F respectively. Minimum cost = Rs.4400 A firm makes two types of furniture : chairs and tables. The contribution to profit for each product as calculated by the accounting department is Rs.20 per chair and Rs.30 per table. Both products are to be processed on three machines M1, M2 and M3. The time required in hours by each product and total time available in hours per week on each machine are as follows: Machine Chair Table Available Time 3 3 36 M1 M2 5 2 50 M3 2 6 60 How should the manufacturer schedule his production in October to maximize profit. Ans: 3 chairs and 9 tables. A farmer has a supply of chemical fertilizer of type I which contains 10% nitrogen and 6% phosphoric acid and type II fertilizer which contains 5% nitrogen and 10% phosphoric acid. After testing the soil conditions of a field, it is found that atleast 14 kg of nitrogen and 14 kg of phosphoric acid is required for a good crop. The fertilizer type I costs Rs.2.00 per kg and type II costs Rs.3.00 per kg. How many kilograms of each fertilizer should be used to meet the requirement and the cost be minimum. Ans: Minimum at (100,80) and is equal to Rs.440. If a young man rides his motorcycle at 25 km/hr, he had to spend Rs.2 per km on petrol. If he rides at a faster speed of 40 km/hr, the petrol cost increases at Rs.5 per km. He has Rs.100 to spend on petrol and wishes to find what is the maximum distance he can travel within one hour. Express this as LPP and solve it graphically. 50 40 Ans: Maximum at , and is equal to 30 km. 3 3 39 7) Solve the following LPP graphically. Maximize or minimize Z = 3x+5y subject to 3x 4 y - 12 2x - y + 2 0 2x + 3y - 12 0 0 x 4 y 2 Ans: Min. value 19 at (3,2) and Max. value 42 at (4,6) 8) Solve the following LPP graphically. Minimize Z = 3x+5y subject to 2 x + y 4 x+y 3 x - 2y 2 x, y 0 Ans : Minimum value is 9) 29 8 1 at , 3 3 3 Determine graphically the minimum value of the objective function. Z = - 50x + 20y Subject to constraints 2x - y -5 3x + y 3 2x - 3y 12 x 0, y 0 10) Find the maximum and minimum values of 5x+2y subject to constraints 2 x 3y - 6 x - 2y 2 6x + 4y 24 - 3x + 2y 3 x 0 and y 0 7 3 Ans : Max. value is 19 at , and 2 4 3 24 Min. value is 4.85 at , 13 13 ***** 40 HOTS : HIGH ORDER THINKING QUESTIONS - MATHEMATICS PROBABILITY 1) 2) Urn A contain 1 white, 2 black, 3 red balls. Urn B contain 2 white, 1 black, 1 red balls. Urn C contains 4 white, 5 black, 3 red balls. Two balls are drawn from one of the Urn and found to be one white and one red. Find the probabilities that they come from Urns A, B or C. 16/39 A die is thrown 120 times and getting 1 or 5 is considered success. Find the mean, variance of = 40, 2 = 26.7 number of successes. 3) Given P(A) = 0.3, P(B) = 0.2, Find P(B/A) if A and B are mutually exclusive events. 4) The parameters n and p are 12 and 13 for a binomial distribution. Find standard deviation. (1.63) A man fires 4 bullets on a thief. The probability that the thief will be killed by one bullet is 0.6. Find the probability that the thief is still alive. (0.4)4 5) 6) 7) 8) In a hurdle race a player has to cross 10 hurdles. The probability that will clear each hurdle is 5 6 , what is the probability that he will knock down fewer than 2 hurdles. (0.4845 If on an average 1 ship in every 10 sinks, find the chance that out of 5 ships atleast 4 will arrive safely. (0.9185) 4 persons are chosen at random from a group of 3 men, 2 women, 3 children. Find the probability 3 that out of 4 choice, exactly 2 are children. 9) 10) (0) 7 Suppose X has a binomial distribution B (6, 12 ) show that X = 3 is the most likely outcome. In a binomial distribution, the sum of mean and variance is 42. Product is 360. FInd the distribution. 2 3 + 5 5 11) 50 Given that the two numbers appearing on two dice are different. Find the probability of the 1 15 event the sum of numbers on the dice is 4 . 1 7 1 , P(B) = P(not A or not B) = state whether A and B are independent. 2 12 4 12) P( A) = 13) Three cards are drawn with replacement from a well shuffled pack of cards. Find the probability (No) that cards are a king, queen and a jack. 6 2197 14) Find the probability of throwing almost 2 sixes in 6 throws of a single dice. 35 5 18 6 15) Find the probability that sum of the numbers showing on the two dice is 8, given that atleast one 4 dice doesn t show five. 3 25 16) The mean and variance of a binomial distribution are 4 and 4 3 . Find P(X 1) 728 729 17) 6 boys and 6 girls sit in a row at random. Find the probability that 1) The six girls sit together 1 1 132 462 2) The boys and girls sit alternatively. 18) If A, B, C are events associated with random expt. Prove that PtP(A B C ) = P(A) + P(B) + P(c) P(A B) P(A C) P(B C) + P(A B C) 41 19) Shreya visits the cities A, B, C and D at random. What is the probability that he visits 1 5 , 2 24 1) A before B 2) A just before B. 20) What are the odds in favour of getting a 3 in a throw of die? What are the odds against 1 5 , 5 1 getting 3? 21) A pack of 52 cards were distributed equally among 4 players. Find the chance that 4 kings are 11 4165 held by particular player. 22) 23) 5 A fair die is rolled. The probability that the first 1 occurs at the even number of trails is 11 If a 4 digit number > 5000 are randomly formed from digits 0,1,3,5,7. Find probability of forming a number divisible by 5 when (1) digits are repeated 2) digits are not repeated. 2 3 5 8 24) A letter is chosen at random from the word ASSASSINATION . Find the probability that the letter 6 13 is a vowel. 25) 5 A fair die is rolled. The probability that the first 1 occurs at even number of trails is 11 26) If three distinct numbers are chosen at randomly from first 100 natural nos. then the probability 4 1155 that all of them are divisible by 2 or 3 is 27) A coin is tossed 7 times. FInd the probability distribution of getting r heads. 7 7 c r 1 , r = 0,1,2..... ..7 2 28) A company produces 10% defective items. Find the probability of getting 2 defective items in a 28 x96 10 8 sample of 8 items is 29) Obtain the probability distribution of number of sixes in two tosses of a dice. Also find mean/ (25 36 ,10 36 , 136 , 13 , 5 18 ) variance. 30) A,B,C tosses a coin in turns. The first one to throw a head wins game. What are their respective (4 7 ,2 7 , 17 ) chances of winning. 31) A man is known to speak truth 3 times out of 4. He throws a dice and reports that it is a six. Find (3 4 ) the probability that it is actually a six. 32) Suppose that a fair dice are tossed and let X represents The sum of points . FInd the mean/ (7, variance of X. 33) Find the probability that sum of nos. appearing and showing on two dice is 8, given that atleast (19 ) one of the dice doesn t show 5. 34) ) 2.41 A tells lie is 30% cases, and B in 35% cases find the probability that both state same fact. 42 35) Two cards are drawn without replacement from a pack. Find the probability distribution of number 105 96 20 221, 221, 221 of face cards. 36) 37) 38) P(X) = 0 1 2 A man takes a step forward with probability 0.4 and backwards with a probability 0.6. Find the probability that after 11 steps he is just one step away from the starting point. (462) x (0.24)5 Find the probability distribution of the sum of the numbers obtained when two dice are thrown once. (All 11 prob. distributions to be shown) Two cards are drawn from a pack. Find the probability that number of aces are drawn. (Write probability distribution table) 1 5 , 3 18 39) Find the mean and variance of number of sines in two tosses of a die. 40) 6 coins are tossed simultaneously. Find the probability of getting 1) no heads 2) 3 heads 1 5 , 64 16 () 41) If 2p(A) = P(B) = 5 13 and P A B = 2 5 Find P(A B) 42) If E and F are events such that P(F) = 14 P(F) = 12 and P(E P) = 18 find P( E F ) 43) P(A speaks truth is) = 4 5 . A coin is tossed. A reports that a head appears. The probability that actually there was a head is. Two cards are drawn from a pack and kept out. Then one card is drawn from remaining 50 cards. 44) 1 13 Find the prob. that it is an ace. 45) Two dice are thrown. Find the probability that the number appeared have a sum 8 if it is known 1 6 that second dice always exhibits 4. 46) If the second die always shows an odd no. find the conditional probability of getting a sum as 7, 1 6 if a pair of dice is to be known. 47) 48) P(A) = 12 , P(B) = 7 12 and P(not A or not B) = 14 . State whether A and B independent or not. (NO) A die is thrown again and again untill three sixes are obtained. Find the probability of obtaining 625 23328 Six dice are thrown 729 times. How many times do you expect atleast three dice to show 5 or 6. (233) A random variable X has probability distribution P(X) of the following form where K is some number. third six in sixth throw of dice. 49) 50) x=0 k if 2k if x =1 P(X) = 3k if x=2 0 otherwise Find (1) K 1 1 6 2 (2) P (X > 2) ***** 43

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