4) Will was leisurely flying his F-18 when he encountered an alien aircraft. The alien was flying at an altitude of 3 km while Will was at an altitude of 600 m. Will begins to increase his speed at a rate of 2.0 m/s each second. Will is traveling at a speed of 750 km/h at the instant when = 45° and at the same instant at this same instant if the alien has a constant velocity of 1,500 km/h. Calculate the following: a) Determine the velocity and acceleration vectors (in m/s and m/s², respectively) of the alien as observed by Will. [Ans. to Check: VB/A = 208.3 i m/s] b) Determine the time rate of change of the vector r that is between Will and the alien ship in m/s. In other words, find r. [Ans. to Check: r = 147.32 m/s] c) Calculate the angular velocity of the space ship relative to Will in rad/s. d) Determine the radial and angular accelerations in m/s² and rad/s². [Ans. to Check: * = 4.86 m/s²] VA Ꮎ VB 600 m 3 km

4) Will was leisurely flying his F-18 when he encountered an alien aircraft. The alien was flying at an altitude of 3 km while Will was at an altitude of 600 m. Will begins to increase his speed at a rate of 2.0 m/s each second. Will is traveling at a speed of 750 km/h at the instant when = 45° and at the same instant at this same instant if the alien has a constant velocity of 1,500 km/h. Calculate the following: a) Determine the velocity and acceleration vectors (in m/s and m/s², respectively) of the alien as observed by Will. [Ans. to Check: VB/A = 208.3 i m/s] b) Determine the time rate of change of the vector r that is between Will and the alien ship in m/s. In other words, find r. [Ans. to Check: r = 147.32 m/s] c) Calculate the angular velocity of the space ship relative to Will in rad/s. d) Determine the radial and angular accelerations in m/s² and rad/s². [Ans. to Check: * = 4.86 m/s²] VA Ꮎ VB 600 m 3 km

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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