U A E U MATH 1120 CALCULUS II FOR ENGINEERS FINAL EXAM FALL 2007 U A E University, College of Science Department of Mathematical Sciences Final Exam Fall 2007 MATH 1120 CALCULUS II FOR ENGINEERS Student’s Name Student’s I.D. Section # Circle the name of your instructor (with the time of your class) Dr. Adama Diene - Section 51 Mr. Naim Markos- Section 01 Dr. Adama Diene - Section 52 Dr. Mohamed Hajji -Section 02 Mr. Naim Markos- Section 03 Allowed time is 2 hours. Please be neat and show all work. You can use the back of the sheets. Return this entire booklet to your instructor. NO BOOKS. NO NOTES. NO PROGRANMING CALCULATORS Section I Problem # Points Section II Problem # 1-13 Points Total Points U A E U MATH 1120 CALCULUS II FOR ENGINEERS FINAL EXAM FALL 2007 Section I: Multiple choice problems [60 Points, 6 each] (No Partial Credits for this Section) 1. A vector with magnitude 6 in the same direction as, v = i – 2j is 6 12 A) 6 i – 12 j B) i– j 5 5 1 2 i– j D) 6i C) 5 5 2. The graph of the difference a – b; where a = – i + 4 j; and b = –3 i + 3 j is (in graphs the vectors are in bold black), A) B) C) D) 2-13 U A E U MATH 1120 CALCULUS II FOR ENGINEERS FINAL EXAM FALL 2007 3. The velocity function for the position function r ( t ) = –8cos 5t , –8sin 5t is A) v ( t ) = –40sin 5t , 40 cos 5t B) v ( t ) = 8sin 5t , –8cos 5t C) v ( t ) = –8sin 5t ,8cos 5t D) v ( t ) = 40sin 5t , –40 cos 5t 4. The distance between the parallel planes 2 x − 3 y + z = 6 and 4 x − 6 y + 2 z = 8 is A) 2 B) 0 C) 2 14 2 7 D) 5. The graph of the plane y + 2z = 6, is B) A) z z 3 2 y 1 y –1 6 6 x x D) C) z z y-z plane 1 1 y –1 y –1 2 2 x x 3-13 U A E U MATH 1120 CALCULUS II FOR ENGINEERS FINAL EXAM r 6- The unit tangent vector to the curve r = cos 9t , 2t , sin 9t at t = 1 –9, 2,1 86 1 0, 2,9 85 A) C) FALL 2007 π 8 is 1 9, 2, 0 85 1 –9, 2, 0 85 B) D) 7. The first-order partial derivatives of f ( x, y ) = 7 x3 + 5 x 2 y + 4 y 5 are A) f x = 21x 2 + 10 xy + 4 y 5 ; f y = 7 x3 + 5 x 2 + 20 y 4 B) f x = 3 x 2 + 10 xy; f y = 5 x 2 + 5 y 4 C) f x = 21x 2 + 10 xy; f y = 5 x 2 + 20 y 4 D) f x = 21x 2 + 10 xy; f y = 5 x 2 + 20 y 4 ; f xy = 10 x 1 2y 8. Change the order of integration ∫ ∫ f ( x, y) dx dy 0 0 2y 1 A) ∫ ∫ 2 f ( x, y ) dy dx 0 x/2 2 1 0 0 2 x/2 C) ∫ ∫ f ( x, y) dy dx 0 1 ∫ ∫ f ( x, y) dy dx B) ∫ ∫ f ( x, y ) dy dx D) x/2 0 0 9. Convert the equation x 4 y + y 4 z = 1 into spherical coordinates. ( ) A) ρ 5 sin 5 φ cos 4 θ sin θ + sin 4 θ cos θ = 1 B) ρ 4 sin 4 φ ( cos θ + sin θ ) = 1 C) ρ 5 sin 4 φ ( cos θ + sin θ ) = 1 D) ρ 5 sin 5 φ cos 4 θ sin θ + sin 4 φ sin 4 θ cos φ = 1 ( ) 10. A constant force of 30, 20 pounds moves an object in a straight line from the point (0, 0) to the point (24, 10). The work done is r r A) i + j ft.pounds C) 920 ft.pounds 26 r r B) 2i + j ft.pounds D) 920 ft.pounds 4-13 U A E U MATH 1120 CALCULUS II FOR ENGINEERS FINAL EXAM FALL 2007 Section II: Multiple-Step problems [140 Points, 18 each] ANSWER ONLY 8 QUESTIONS 1. A) Find the distance from the point Q = (1, 2, 0) to the line passing through (0, 1, 2) and (3, 1, 1) B) Find a symmetric equation of the line through the point (1, 5, 2) and parallel to the vector 4, 3, 7 . Also, determine where the line intersects the yz-plane. 5-13 U A E U MATH 1120 CALCULUS II FOR ENGINEERS FINAL EXAM FALL 2007 2. In the given figure, two ropes are attached to a 500-pound crate. Rope A exerts a force of 20, − 130, 200 pounds on the crate, and rope B exerts a force of − 10, 130, 300 pounds on the crate. I) If no further ropes are added, find the net force on the crate and the direction it will move. ii) If a third rope C is added to balance the crate, what force must this rope exert on the crate? 6-13 U A E U MATH 1120 CALCULUS II FOR ENGINEERS FINAL EXAM FALL 2007 3. A) Show that there are no values of t such that r ( t ) and r ′ ( t ) are parallel, where r ( t ) = t 2 − 6, t 2 , t . Show your work. r B) Find the arc length of curve described by r = t 7-13 3/ 2 , (t − 1), t where 0 ≤ t ≤ 1 U A E U MATH 1120 CALCULUS II FOR ENGINEERS FINAL EXAM FALL 2007 4. A) Compute the directional derivative of f ( x, y ) = 2 xy − 7 x at the point (1, 5) in the 2 direction of the vector 1 1 , 2 2 . r r r r r r a + b ≤ a + b for any two vectors a and b . Find the relationship r r r r r r that must exist between a and b to have a + b = a + b B) It is known that 8-13 U A E U MATH 1120 CALCULUS II FOR ENGINEERS FINAL EXAM FALL 2007 5. A) Find the volume inside the paraboloid z = 9 − x − y , outside the cylinder 2 2 x 2 + y 2 = 4 and above the xy-plane. B) Decide if each of the following quantities is a vector, a scalar, or undefined ( write your answer over the dots) rr v .w a. r r v×w r r u×w b. rr ru .wr r c. u × (v ⋅ w) r r r d. (u × v ).w ..………………….. ……………………. ……………………. ……………………. 9-13 U A E U MATH 1120 CALCULUS II FOR ENGINEERS FINAL EXAM FALL 2007 6. A rocket is launched with a constant thrust corresponding to an acceleration of u ft / s 2 . Ignoring air resistance, the rocket’s height after t seconds is given by 1 f (u , t ) = (u − 32) t 2 feet . Fuel usage for t seconds is proportional to u 2 t and the 2 2 limited fuel capacity of the rocket satisfies the equation u t = 10,000 . Find the value of u that maximizes the height that the rocket reaches when the fuel runs out. 10-13 U A E U MATH 1120 CALCULUS II FOR ENGINEERS FINAL EXAM 7. Lamina bounded by y = x and y = x 2 with density ρ ( x, y ) = 4 i) Sketch the region ii) Find the mass of the lamina iii) Find, x , the x-coordinate of the center of mass. 3 11-13 FALL 2007 U A E U MATH 1120 CALCULUS II FOR ENGINEERS FINAL EXAM FALL 2007 8. A) Use appropriate coordinates to set up and (DON’T EVALUATE) the triple integral x ∫∫∫ e 2 + y2 dV , where Q is the region inside x 2 + y 2 = 4 and between z = 1 and z = 2 Q in the first octant. B) Draw a picture and describe a situation where the projection of a vector onto a line is the vector itself. 12-13 U A E U MATH 1120 CALCULUS II FOR ENGINEERS FINAL EXAM FALL 2007 9. A) Find rectangular coordinates for the point described by (8, π/4, π/3) in spherical coordinates. B) Identify the following objects in 3-space 2x − 3y = 6 i. ii. iii. iv. v r r by r (t ) = 4 cos t i − 4 sin t j , 0 ≤ t < 2π . r r r v r (t ) = (1 + 2t ) i − t j + (2 + 3t ) k θ = 0 in spherical coordinates C) Decide if each of the following quantities is a vector or scalar i. velocity ii. work done iii. volume iv. acceleration 13-13
© Copyright 2024