BCS-012 Basic Mathematics Exam 2022 PDF
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This is a past paper for a Bachelor of Computer Applications (BCA) exam. The exam is for Basic Mathematics, and it contains various questions including solving linear equations using Cramer's rule, evaluating integrals, and mathematical induction problems. The date of the exam is June 2022.
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No. of Printed Pages : 4 BCS-012 BACHELOR OF COMPUTER APPLICATIONS (BCA) (Revised) Term-End Examination June, 2022 BCS-012 : BASIC MATHEMATICS Time : 3 hours Ma...
No. of Printed Pages : 4 BCS-012 BACHELOR OF COMPUTER APPLICATIONS (BCA) (Revised) Term-End Examination June, 2022 BCS-012 : BASIC MATHEMATICS Time : 3 hours Maximum Marks : 100 Note : Question number 1 is compulsory. Attempt any three questions from the remaining questions. 1. (a) Solve the following system of linear equations using Cramer’s rule : 5 x + y = 0; y + z = 1; z + x = 3 (b) If 1, and 2 are cube roots of unity, show that (2 – ) (2 – 2) (2 – 10) (2 – 11) = 49. 5 x2 (c) Evaluate the integral I = (x 1)3 dx. 5 5 (d) Solve the inequality < 7. 5 | x 3| BCS-012 1 P.T.O. 1 a a2 (e) Show that 1 b b2 = (b – a) (c – a) (c – b). 5 2 1 c c (f) Find the quadratic equation whose roots are (2 – 3 ) and (2 + 3 ). 5 (g) Find the sum of an Infinite G.P., whose 4 first term is 28 and fourth term is. 5 49 (h) If z is a complex number such that |z – 2i| = |z + 2i|, show that Im(z) = 0. 5 1 2x 1 2x 2. (a) Evaluate Lim. 5 x0 x (b) Prove that the three medians of a triangle meet at a point called centroid of the triangle which divides each of the medians in the ratio 2 : 1. 7 (c) A young child is flying a kite which is at a height of 50 m. The wind is carrying the kite horizontally away from the child at a speed of 6·5 m/s. How fast must the kite string be let out when the string is 130 m ? 8 3. (a) Using Principle of Mathematical Induction, show that n(n + 1) (2n + 1) is a multiple of 6 for every natural number n. 5 BCS-012 2 (b) Find the points of local minima and local maxima for 3 4 45 2 f(x) = x – 8x3 + x + 2015. 5 4 2 (c) Determine the 100th term of the Harmonic 1 1 1 1 Progression , , , ,.... 5 7 15 23 31 (d) Find the length of the curve y = 2x3/2 from the point (1, 2) to (4, 16). 5 4. (a) Determine the shortest distance between ^ ^ ^ r1 = (1 + ) i + (2 – ) j + (1 + ) k and ^ ^ ^ r2 = 2(1 + ) i + (1 – ) j + (– 1 + 2) k. 5 (b) Find the area lying between two curves y = 3 + 2x, y = 3 – x, 0 x 3, using integration. 5 (c) If y = 1 + ln (x + x 2 1 ), prove that d 2y dy (x2 + 1) 2 x = 0. 5 dx dx (d) Find the angle between the lines ^ ^ ^ ^ ^ ^ r1 = 2 i + 3 j – 4 k + t ( i – 2 j + 2 k ) and ^ ^ ^ ^ ^ r2 = 3 i – 5 k + s (3 i – 2 j + 6 k ). 5 BCS-012 3 P.T.O. 1 2 3 5. (a) If A = 4 5 7 , show that A(adj A) = 0. 5 5 3 4 (b) Use De-Moivre’s theorem to find ( 3 + i)3. 5 (c) Show that |a |b +|b |a is perpendicular to | a | b – | b | a , for any two non-zero vectors a and b. 5 3/4 x 2 (d) If y = ln e x , find dy. 5 x 2 dx BCS-012 4
