The velocity of a rocket is given as a function of time at discrete points as 3. Time (s) 3 5 8 12 Velocity (m/s) 4 32 16 8 Using Trapezoidal Rule with unequal segments, the dista most nearly is (...
The velocity of a rocket is given as a function of time at discrete points as 3. Time (s) 3 5 8 12 Velocity (m/s) 4 32 16 8 Using Trapezoidal Rule with unequal segments, the dista most nearly is (circle correct response) [15 points] (show your work nce covered by the rocket between 7 and 12 seconds (A) 60.00 m (B) 66.67 m (C) 93.33 m (D) 96.00 m At the end of conducting 100 iterations, an iterative scheme to calculate roots of a nonlinear equation gives an answer with an absolute relative approximate error of 0.004%. This implies are at least correct in the answer. (circle correct response) [5 points] 4. significant digits (A) 2 (B) 3 (C) 4 (D) 5
The velocity of a rocket is given as a function of time at discrete points as 3. Time (s) 3 5 8 12 Velocity (m/s) 4 32 16 8 Using Trapezoidal Rule with unequal segments, the dista most nearly is (circle correct response) [15 points] (show your work nce covered by the rocket between 7 and 12 seconds (A) 60.00 m (B) 66.67 m (C) 93.33 m (D) 96.00 m At the end of conducting 100 iterations, an iterative scheme to calculate roots of a nonlinear equation gives an answer with an absolute relative approximate error of 0.004%. This implies are at least correct in the answer. (circle correct response) [5 points] 4. significant digits (A) 2 (B) 3 (C) 4 (D) 5