Practice Questions

Q70.Let B and C be the two points on the line y + x =0 such that B and C are symmetric with respect to the origin. Suppose A is a point on y −2x = 2 such that ΔABC is an equilateral triangle. Then, the area of the ΔABC is (1) 3√3 (2) 2√3 (3) 8 (4) 10 √3 √3

Q70.A triangle is formed by X -axis, Y -axis and the line 3x + 4y = 60 . Then the number of points P(a, b) which lie strictly inside the triangle, where a is an integer and b is a multiple of a, is _____ .

Q70.The equations of sides AB and AC of a triangle ABC are (λ + 1)x + λy = 4 and λx + (1 −λ)y + λ = 0 respectively. Its vertex A is on the y−axis and its orthocentre is (1, 2). The length of the tangent from the point C to the part of the parabola y2 = 6x in the first quadrant is (1) √6 (2) 2√2 (3) 2 (4) 4 JEE Main 2023 (24 Jan Shift 2) JEE Main Previous Year Paper

Q71.A triangle is formed by the tangents at the point (2, 2) on the curves y2 = 2x and x2 + y2 = 4x, and the line x + y + 2 = 0. If r is the radius of its circumcircle, then r2 is equal to

Q71.Let the eccentricity of an ellipse x2 + y2 = 1 is reciprocal to that of the hyperbola 2x2 −2y2 = 1 . If the a2 b2 ellipse intersects the hyperbola at right angles, then square of length of the latus-rectum of the ellipse is _____. JEE Main 2023 (06 Apr Shift 2) JEE Main Previous Year Paper lim 2 −2 3 2 −2 5 . . . 2 −2 2n+1 )(2 ). (2 )} is equal to

Q71.Let f, g and h be the real valued functions defined on R as x , x ≠0 sin(x+1) |x| (x+1) , x ≠−1 f(x) = , g(x) = and h(x) = 2[x] −f(x), where [x] is the greatest integer { 1, x = 0 { 1, x = −1 ≤x. Then the value of lim g(h(x −1)) is x→1 (1) 1 (2) sin(1) (3) −1 (4) 0

Q71. (√3x+1+√3x−1) 6 +(√3x+1−√3x−1) 6 lim 6 6 x3 x→∞ (x+√x2−1) +(x−√x2−1) (1) is equal to 272 (2) is equal to 9 (3) does not exist (4) is equal to 27

Q71.Let R be the focus of the parabola y2 = 20x and the line y = mx + c intersect the parabola at two points P and Q. Let the points G(10, 10) be the centroid of the triangle PQR . If c −m = 6 , then PQ2 is (1) 296 (2) 325 (3) 317 (4) 346

Q71.Let P( 2√3√7 √7 perpendicular and pass through the origin. If 1 + 1 = pq , where p and q are coprime, then p + q is (PQ)2 (RS)2 equal to (1) 147 (2) 143 (3) 137 (4) 157

Q71.Let the tangent to the parabola y2 = 12x at the point (3, α) be perpendicular to the line 2x + 2y = 3 . Then the square of distance of the point (6, −4) from the normal to the hyperbola α2x2 −9y2 = 9α2 at its point (α −1, α + 2) is equal to .............

Q71.Points P(−3, 2), Q(9, 10) and R(α, 4) lie on a circle C with PR as its diameter. The tangents to C at the points Q and R intersect at the point S . If S lies on the line 2x −ky = 1 , then k is equal to _____ .

Q71.Let the system of linear equations –x + 2y −9z = 7 −x + 3y + 7z = 9 −2x + y + 5z = 8 −3x + y + 13z = λ has a unique solution x = α, y = β, z = γ . Then the distance of the point (α, β, γ) from the plane 2x −2y + z = λ is (1) 11 (2) 7 (3) 9 (4) 13

Q72.Let 𝑓: 2, 4 →ℝ be a differentiable function such that 𝑥log𝑒𝑥𝑓'𝑥+ log𝑒𝑥𝑓𝑥+ 𝑓𝑥≥1, 𝑥∈2, 4 with 𝑓2 = 2 and 1 𝑓4 = 2. Consider the following two statements: (A) 𝑓𝑥≤1, for all 𝑥∈2, 4 (B) 𝑓𝑥≥1 / 8, for all 𝑥∈2, 4 Then, (1) Neither statement ( 𝐴) nor statement ( 𝐵) is (2) Only statement ( 𝐵) is true true (3) Both the statements ( 𝐴) and ( 𝐵) are true (4) Only statement ( 𝐴) is true √1 + 𝑒2𝑥𝑑𝑥 is equal to

Q72.The equations of two sides of a variable triangle are x = 0 and y = 3 , and its third side is a tangent to the parabola y2 = 6x . The locus of its circumcentre is : (1) 4y2 −18y −3x −18 = 0 (2) 4y2 + 18y + 3x + 18 = 0 (3) 4y2 −18y + 3x + 18 = 0 (4) 4y2 −18y −3x + 18 = 0 JEE Main 2023 (25 Jan Shift 2) JEE Main Previous Year Paper

Q72.If the tangent at a point P on the parabola y2 = 3x is parallel to the line x + 2y = 1 and the tangents at the x2 y2 points Q and R on the ellipse 4 + 1 = 1 are perpendicular to the line x −y = 2, then the area of the triangle PQR is: (1) 9 (2) 5√3 √5 (3) 3 2 √5 (4) 3√5

Q72.If α > β > 0 are the roots of the equation ax2 + bx + 1 = 0 , and 1 1−cos(x2+bx+a) 2 1 1 k is equal to lim ( 2(1−αx)2 ) = k ( β −1α ), then x→1α (1) 2β (2) α (3) 2α (4) β

Q72.The equation 𝑥2 – 4𝑥+ [𝑥] + 3 = 𝑥[𝑥], where [𝑥] denotes the greatest integer function, has: (1) exactly two solutions in ( - ∞, ∞) (2) no solution (3) a unique solution in ( - ∞, 1 ) (4) a unique solution in ( - ∞, ∞) Q73. 𝑥2sin1 𝑥≠0 Let 𝑓𝑥= 𝑥; , then at 𝑥= 0 0; 𝑥= 0 (1) 𝑓 is continuous but not differentiable (2) 𝑓 is continuous but 𝑓' is not continuous (3) both 𝑓 and 𝑓' are continuous (4) 𝑓' is continuous but not differentiable

Q72.Let 5𝑓𝑥+ 4𝑓 𝑥= 𝑥+ 3, 𝑥> 0 . Then 18 ∫1 𝑓𝑥𝑑𝑥 is equal to (1) 5 loge2 + 3 (2) 10 loge2 + 6 (3) 10 loge2 - 6 (4) 5loge2 - 3 ∞ 3 𝑥- 3

Q72. n→∞{(2 1 1 1 1 1 1 (1) 1 (2) 0 (3) √2 (4) 1 √2

Q73.Let 𝑔𝑥= 𝑓𝑥+ 𝑓1 - 𝑥 and 𝑓"𝑥> 0, 𝑥∈0, 1. If 𝑔 is decreasing in the interval 0, 𝛼 and increasing in the interval 𝛼, 1, then tan-12𝛼+ tan-1 1 tan-1𝛼+ 1 is equal to 𝛼+ 𝛼 5π (1) π (2) 4 (3) 3π (4) 3π 4 2

Q73.If p, q and r are three propositions, then which of the following combination of truth values of p, q and r makes the logical expression {(p ∨q) ∧((~p) ∨r)} →((~q) ∨r) false ? (1) p = T, q = F, r = T (2) p = T, q = T, r = F (3) p = F, q = T, r = F (4) p = T, q = F, r = F

Q73.Let the positive numbers a1, a2, a3, a4 and a5 be in a G.P. Let their mean and variance be 1031 and mn respectively, where m and n are co-prime. If the mean of their reciprocals is 31 and a3 + a4 + a5 = 14, then 10 m + n is equal to ____________.

Q73.Let [x] denote the greatest integer function and f(x) = max{1 + x + [x], 2 + x, x + 2[x]}, 0 ≤x ≤2 , where f is not continuous and n be the number of points in (0, 2), where f is not differentiable. Then (m + n)2 + 2 is equal to (1) 2 (2) 11 (3) 6 (4) 3 α, β > 0 , then α4 −β4 is equal to dx = α1 loge( α+1β ),

Q73.Let 𝑓 be a differentiable function such that 𝑥2𝑓𝑥- 𝑥= 4 𝑥𝑡 𝑓𝑡 𝑑𝑡, 𝑓1 = 2 Then 18 𝑓3 is equal to ∫0 3. (1) 210 (2) 160 (3) 150 (4) 180

Q73.Let 𝑓𝑥= 2𝑥+ tan-1𝑥 and 𝑔𝑥= log𝑒√1 + 𝑥2 + 𝑥, 𝑥∈0, 3. Then (1) There exists 𝑥∈0, 3 such that 𝑓'𝑥< 𝑔'𝑥 (2) max 𝑓𝑥> max 𝑔𝑥 (3) There exist 0 < 𝑥1 < 𝑥2 < 3 such that 𝑓𝑥< 𝑔𝑥, (4) min 𝑓'𝑥= 1 + max 𝑔'𝑥 ∀𝑥∈𝑥1, 𝑥2 Q74. 1 + sin2𝑥 cos2𝑥 sin2𝑥 𝜋 𝜋 Let 𝑓𝑥= sin2𝑥 1 + cos2𝑥 sin2𝑥 , x ∈ 6, 3 . If 𝛼 and 𝛽 respectively are the maximum and the sin2𝑥 cos2𝑥 1 + sin2𝑥 minimum values of 𝑓, then 19 19 (1) 𝛽2 - 2√𝛼= 4 (2) 𝛽2 + 2√𝛼= 4 9 (3) 𝛼2 - 𝛽2 = 4√3 (4) 𝛼2 + 𝛽2 = 2