Practice Questions
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Q77.If πΌ= cos-13 , π½= tan-11 , where 0 < πΌ, π½< π then πΌ- π½ is equal to 5 3 2, (1) tan-1 9 (2) cos-1 9 (3) sin-1β‘ 9 (4) tan-1 9 14 5β10 5β10 5β10 2π₯ is equal to π₯< 1, then π
Q77.The sum of the real roots of the equation π₯ -6 -1 2 -3π₯ π₯- 3 = 0, is equal to: -3 2π₯ π₯+ 2 (1) 0 (2) -4 (3) 6 (4) 1 JEE Main 2019 (10 Apr Shift 2) JEE Main Previous Year Paper
Q77.In a class of 140 students numbered 1 to 140 , all even numbered students opted Mathematics course, those whose number is divisible by 3 opted Physics course and those whose number is divisible by 5 opted Chemistry course. Then the number of students who did not opt for any of the three courses is: (1) 42 (2) 1 (3) 38 (4) 102
Q78.Let f(x) = x2, x βR . For any A βR, define g(A) = {x βR : f(x) βA} . If S = [0, 4] , then which one of the following statements is not true? (1) g(f(S)) β S (2) f(g(S)) β f(S) (3) f(g(S)) = S (4) g(f(S)) = g(S)
Q78.For π₯ π (0, 3 ), let ππ₯= ππ₯= tanπ₯ and βπ₯= 1 - π₯2 . If Οπ₯= ( hoπ) og ) ( π₯) , then Ο π is equal to: 2 βπ₯, 1 + π₯2 3 π 5π (1) tanβ‘ (2) tanβ‘ 12 12 7π 11π (3) tanβ‘ (4) tanβ‘ 12 12
Q78.If the system of equations 2x + 3y βz = 0, x + ky β2z = 0 and 2x βy + z = 0 has a non-trivial solution (x, y, z), then xy + yz + xz + k is equal to (1) β14 (2) 21 (3) β4 (4) 34
Q78.If ππ₯= logπ 11 +- π₯π₯, 1 + π₯2 (1) ππ₯2 (2) 2ππ₯2 (3) β 2ππ₯ (4) 2ππ₯ sinπ₯ π then ππ¦ is equal to
Q78.The number of functions f from {1, 2, 3, β¦ , 20} onto {1, 2, 3, β¦ , 20} such that f(k) is a multiple of 3, whenever k is a multiple of 4 is: (1) 65 Γ (15)! (2) 5! Γ 6! (3) (15)! Γ 6! (4) 56 Γ 15
Q78.If the system of linear equations 2x + 2y + 3z = a 3x βy + 5z = b x β3y + 2z = c where, a, b, care non- zero real numbers, has more than onc solution, then (1) b βc + a = 0 (2) b βc βa = 0 (3) a + b + c = 0 (4) b + c βa = 0
Q78.If the system of linear equations x β4y + 7z = g; 3y β5z = h ; β2x + 5y β9z = k is consistent, then: (1) g + h + 2k = 0 (2) g + 2h + k = 0 (3) 2g + h + k = 0 (4) g + h + k = 0
Q78.If the system of linear equations π₯- 2π¦+ ππ§= 1 2π₯+ π¦+ π§= 2 3π₯- π¦- ππ§= 3 has a solution π₯, π¦, π§, π§β 0, then π₯, π¦ lies on the straight line whose equation is: (1) 4π₯- 3π¦- 4 = 0 (2) 3π₯- 4π¦- 4 = 0 (3) 3π₯- 4π¦- 1 = 0 (4) 4π₯- 3π¦- 1 = 0
Q78.Let N be the set of natural numbers and two functions f and g be defined as f, g : N βN such that n+1 2 , if n is odd f(n) = n if n is even { 2 , and g(n) = n β(β1)n. Then fog is: (1) onto but not one-one (2) Both one-one and onto (3) One-one but not onto (4) Neither one-one nor onto K be the set of all points
Q78.An ordered pair (Ξ±, Ξ²) for which the system of linear equations (1 + Ξ±)x + Ξ²y + z = 2 Ξ±x + (1 + Ξ²)y + z = 3 Ξ±x + Ξ²y + 2z = 2 has a unique solution, is : (1) (β3, 1) (2) (1, β3) (3) (2, 4) (4) (β4, 2) JEE Main 2019 (12 Jan Shift 1) JEE Main Previous Year Paper
Q78.Let π be a real number for which the system of linear equations π₯+ π¦+ π§= 6, 4π₯+ ππ¦- ππ§= π- 2 and 3π₯+ 2π¦- 4π§= - 5 has infinitely many solutions. Then π is a root of the quadratic equation: (1) π2 + 3π- 4 = 0 (2) π2 - π- 6 = 0 (3) π2 - 3π- 4 = 0 (4) π2 + π- 6 = 0 β 1 π¦ π¦
Q78.If the system of equations x + y + z = 5, x + 2y + 3z = 9, x + 3y + Ξ±z = Ξ² has inifinitely many solutions, then Ξ² βΞ± equals (1) 8 (2) 21 (3) 5 (4) 18 Q79. β‘β2 4 + d (sin ΞΈ) β2 β€ Let d βR, and A = 1 (sin ΞΈ) + 2 d , ΞΈ β[0, 2Ο]. If the minimum value of det(A) is β£ 5 (2 sin ΞΈ) βd (βsin ΞΈ) + 2 + 2d β¦ 8, then a value of d is: + + (1) 2(β2 2) (2) 2(β2 1) (3) β5 (4) β7 . Let S be the set of points in the interval (β4, 4) at which f is not
Q78.If the function f defined on ( 6 , Ο3 ) by f(x) = Ο { k, x = 4 (1) 1 (2) 1 2 (3) 2 (4) 1 β2
Q78.If cos-1 2 cos-1 3 π π₯> 3 then π₯ is equal to : 3π₯+ 4π₯= 2 4, (1) β145 (2) β145 10 11 (3) β146 (4) β145 12 12 1 1
Q78.The set of all values of Ξ» for which the system of linear equations x β2y β2z = Ξ»x x + 2y + z = Ξ»y βx βy = Ξ»z has a non-trivial solution : (1) is an empty set (2) contains more than two elements (3) is a singleton (4) contains exactly two elements
Q79.If cos-1π₯- cos = πΌ, where -1 β€π₯β€1, - 2 β€π¦β€2, π₯β€ then for all π₯, π¦, 4π₯2 - 4π₯π¦cosπΌ+ π¦2 is 2 2, equal to : (1) 4cos2πΌ+ 2π₯2π¦2 (2) 4sin2πΌ- 2π₯2π¦2 (3) 2sin2Ξ± (4) 4sin2Ξ±
Q79.If 2π¦= cot-1β3cosπ₯+ 2 βπ₯β0, cosπ₯- β3sinπ₯ 2, ππ₯ (1) π - π₯ (2) 2π₯- π (3) π₯- π (4) None of these 6 3 6
Q79.If [x] denotes the greatest integer β€x, then the system of linear equations [sinΞΈ]x + [βcosΞΈ]y = 0, [cotΞΈ]x + y = 0 (1) has a unique solution if ΞΈ β( Ο2 , 2Ο3 ) βͺ(Ο, 7Ο6 ) (2) have infinitely many solution if ΞΈ β( Ο2 , 2Ο3 ) βͺ(Ο, 7Ο6 ) (3) has a unique if ΞΈ β( Ο2 , 2Ο3 ) and have infinitely (4) have infinitely many solutions if ΞΈ β( Ο2 , 2Ο3 ) many solutions if ΞΈ β(Ο, 7Ο6 ) and has a unique solution if ΞΈ β(Ο, 7Ο6 )
Q79.Let f : R βR be differentiable at c βR and f(c) = 0. If g(x) = |f(x)|, then at x = c, g is: (1) not differentiable (2) not differentiable if f '(c) = 0 (3) differentiable if f '(c) = 0 (4) differentiable if f '(c) β 0 Q80. , x < 0 β§ sin(p+1)x+sinxx If f(x) = is continuous at x = 0 , then the ordered pair (p, q) is equal to: β¨ q , x = 0 βx+x2ββx , x > 0 β© x3/2 (1) (β32 , β12 ) (2) (β12 , 32 ) (3) ( 52 , 12 ) (4) (β32 , 12 )
Q79.Considering only the principal values of inverse functions, the set A = {x β₯0 : tanβ1(2x) + tanβ1(3x) = Ο4 } (1) Is an empty set (2) Contains more than two elements (3) Contains two elements (4) Is a singleton
Q79.Let f : R βR be defined by f(x) = x , x βR. Then the range of f is 1+x2 (1) [β12 , 12 ] (2) R β[β1, 1] (3) R β[β12 , 12 ] (4) (β1, 1) β{0} and g(x) = |Ξ·(x)| + f(x β£). Then, in the interval (β2, 2), g is:
Q79.Let f be a differentiable function such that f(1) = 2 and f β²(x) = f(x) for all x βR. If h(x) = f(f(x)), then hβ²(1) is equal to : (1) 4e2 (2) 2e (3) 4e (4) 2e2