For the drag force of an Aerobee rocket, D=0.00056v (Ib), obtain a linear model near v = 800 ft/sec and find the velocity below 800 ft/sec that the model prediction error becomes greater than 2 %. Enter an answer in a whole number in ft/sec.
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![For the drag force of an Aerobee rocket,
D=0.00056v (Ib], obtain a linear model
near v = 800 ft/sec and find the velocity
below 800 ft/sec that the model prediction
error becomes greater than 2%. Enter an
answer in a whole number in ft/sec.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fdfd51a76-02c4-4214-af33-d40caf2da6af%2Feb84b3cd-14fb-435e-ae4e-971274e8bbaf%2Fkcxpw7_processed.jpeg&w=3840&q=75)
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- A fighter aircraft is to operate at 200 m/s in air at standard conditions (p= 1.2 kg/m³). A model is constructed to 1/20 scale (length ratio) and tested in a wind tunnel at the same air temperature (same air viscosity) to determine the drag force. The drag force Fp is a function of the air density p and viscosity µ, the velocity V and the cross section length of the airplane D. a) Use dimensional analysis to prove that: F, and PV²D² pVD What are these two dimensionless numbers? b) If the model is tested at 50 m/s, what air density should be used in the wind tunnel? Comment the result and give a recommendation. c) If the model drag force is 250 N at 50 m/s, what will be the drag force of the prototype? Lift force 200 m/s Drag force1:25 scale model of a submarine is tested at 180 ft/s in a wind tunnel using sea-level standard air. What is the prototype speed in seawater at 20°C for dynamic similarity? If the model drag is 1.6lb, what is the prototype drag?3- Use dimensional analysis to show that in a problem involving shallow water waves, both the Froude number and the Reynolds number are relevant dimensionless parameters. The wave speed c of waves on the surface of a liquid is a function of depth h, gravitational acceleration g. fluid density p, and fluid viscosity μ. Manipulate your's to get the parameters into the following form: Fr= √=f(Re) where Re=pch μ h Too 8 P₂ μ