Answer:
216.52°C
Explanation:
Hi, in this problem we know the total heat transfer is 1000 W.
We need to do know is the surface temperature of the iron.
So we are going to use the equation for radiation heat transfer.
So, we have the next data
A = 0.02 m^2
ε= 0.4
h = 20 W/m2·°C
T_∞ = 20°C.
We can assume that the air temperature is Tsurfaces = 20°C = 293.15 K. The Stefan-Boltzmann constant, σ = 5.670x10-8 W/m^2·K^4.
Remember that we have to use Kelvin temperatures for the convection term
[tex]Q=100W=A[h(Tiron-Tinfinity)+epsilon*Boltzmann(T^4iron-T^4surface)][/tex]
[tex][Q=100W=(0.02m^2)[20\frac{W}{m^2C} (T_(iron)-296.15K))+0.4*5.670x10^-8(T^4iron-(296.15)^4)]=489.674[/tex]
489.674K⇒216.52°C
