1)The model of the torpedo (a military vehicle that goes very fast underwater) as placed in a tank is moved by being towed at a speed of 14,4 m/s. In the prototype, the torpedo is expected to move at a speed of 4.2 m/s in water at 15°C. The kinematic viscosity of water at the same temperature is v=3.4x10^(-3) m2/s. a) Determine the scale of the model used. b) If the same prototype and the torpedo model, prepared in the same size, is moved in a wind tunnel where u air=1.975×10^(-4) Ns/m2 and p air=22.5 kg/m3 air with physical properties under 10 atmospheres pressure and 26 C° constant temperature are used. What is the speed of the torpedo?
1)The model of the torpedo (a military vehicle that goes very fast underwater) as placed in a tank is moved by being towed at a speed of 14,4 m/s. In the prototype, the torpedo is expected to move at a speed of 4.2 m/s in water at 15°C. The kinematic viscosity of water at the same temperature is v=3.4x10^(-3) m2/s. a) Determine the scale of the model used. b) If the same prototype and the torpedo model, prepared in the same size, is moved in a wind tunnel where u air=1.975×10^(-4) Ns/m2 and p air=22.5 kg/m3 air with physical properties under 10 atmospheres pressure and 26 C° constant temperature are used. What is the speed of the torpedo?
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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Question
![1)The model of the torpedo (a military vehicle that goes very fast underwater) as placed in a tank is
moved by being towed at a speed of 14,4 m/s. In the prototype, the torpedo is expected to move at a
speed of 4.2 m/s in water at 15°C. The kinematic viscosity of water at the same temperature is
v=3.4x10^(-3) m2/s.
a) Determine the scale of the model used.
b) If the same prototype and the torpedo model, prepared in the same size, is moved in a wind
tunnel where u air=1.975x10^(-4) Ns/m2 and p air=22.5 kg/m3 air with physical properties under 10
atmospheres pressure and 26 C° constant temperature are used. What is the speed of the torpedo?](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Ff9116559-089c-4ec4-827d-edc887775341%2F0e9e3ba9-85e1-4bed-82ad-685ce5306410%2F6tqxwj6_processed.png&w=3840&q=75)
Transcribed Image Text:1)The model of the torpedo (a military vehicle that goes very fast underwater) as placed in a tank is
moved by being towed at a speed of 14,4 m/s. In the prototype, the torpedo is expected to move at a
speed of 4.2 m/s in water at 15°C. The kinematic viscosity of water at the same temperature is
v=3.4x10^(-3) m2/s.
a) Determine the scale of the model used.
b) If the same prototype and the torpedo model, prepared in the same size, is moved in a wind
tunnel where u air=1.975x10^(-4) Ns/m2 and p air=22.5 kg/m3 air with physical properties under 10
atmospheres pressure and 26 C° constant temperature are used. What is the speed of the torpedo?
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