An engineer group studies on the design of a tour balloon for Cappadocia. It is planned that the design details will be determined through the use of a small-scale model for a prototype balloon. The prototype balloon will be departing from a hill with 30 m height. In the small-scale model, a platform with 0.1, m height will be used to simulate the hill. h = f(t, ho, Vo, g) a) Determine the initial vertical speed (Vo) of the balloon when the initial vertical velocity for the model is found Vo to be 3 m/s. b) How long will the prototype reach the height that the model reaches within 33 minutes? ho c) Calculate the corresponding height (h) for the prototype when the height is 60 m for the model. h = 0

An engineer group studies on the design of a tour balloon for Cappadocia. It is planned that the design details will be determined through the use of a small-scale model for a prototype balloon. The prototype balloon will be departing from a hill with 30 m height. In the small-scale model, a platform with 0.1, m height will be used to simulate the hill. h = f(t, ho, Vo, g) a) Determine the initial vertical speed (Vo) of the balloon when the initial vertical velocity for the model is found Vo to be 3 m/s. b) How long will the prototype reach the height that the model reaches within 33 minutes? ho c) Calculate the corresponding height (h) for the prototype when the height is 60 m for the model. h = 0

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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An engineer group studies on the design of a tour balloon for Cappadocia. It is planned that the design details will be determined through the use of a small-scale model for a prototype balloon. The prototype balloon will be departing from a hill with 0,30m height. In the small-scale model, a platform with 0.1 m height will be used to simulate the hill. a) Determine the initial vertical speed (Vo) of the balloon when the initial vertical velocity for the model is found to be sm/s.
Add file Calculate two blocks acceleration * 5 Kg Hx =0.1 HK=0.2 50° 1 Add file A copy of your esponses will be emailed to enema005@uokirkuk.edu.q. 20 Kg