Answer:
The air velocity is 1442.3m/s
The temperature gradient is 0.00311K/m
Step-by-step explanation:
Rate of heat transfer = local conductive heat transfer × area
Rate of heat transfer = force × distance/time (distance/time = velocity)
Therefore, rate of heat transfer = force × velocity
Force (F) × velocity (v) = local conductive heat transfer coefficient (k) × Area (A)
F/A × v = k
Shear stress = F/A = 312N/m^2
k = 450kW/m^2 = 450×1000W/m^2 = 450000W/m^2
312 × v = 450000
v = 450000/312 = 1442.3m/s
Air velocity (v) = 1442.3m/s
Temperature gradient = Temperature (T)/distance (s)
From equations of motion
v^2 = u^2 + 2gs
u = 0m/s, v = 1442.3m/s, g = 9.8m/s^2
1442.3^2 = 2×9.8×s
s = 2080229.29/19.6 = 106134.15m
Temperature gradient = 330K/106134.15m = 0.00311K/m