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.
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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 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
to be 3 m/s.
Vo
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
Transcribed Image Text: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 to be 3 m/s. Vo 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
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