(5.1) a: (a) 0.8 ..... The spectral hemispherical absorptivity of an opaque, diffuse surface is as...
A small object with an opaque, diffuse surface at a temperature
of 500 K is suspended in a large furnace with walls at 2000 K.
Assume that the walls of the furnace provide a diffuse irradiation
to the object at a blackbody temperature equal to the furnace wall
temperature. The object’s surface has a spectral hemispherical
emissivity and absorptivity as given below. (a) Determine the total
emissivity and total absorptivity of the object’s surface. Partial
Ans: ?=0.021 (b) Evaluate the...
An opaque surface with the prescribed spectral, hemispherical reflectivity distribution is subjected to the spectral irradiation as shown: 600 1.0 E 300 e 0.5 0 0 5 10 15 0 5 10 15 20 A (um) (um) (a) (b) (c) (d) Sketch the spectral, hemispherical absorptivity distribution Determine the total irradiation on the surface Determine the radiant flux that is absorbed by the surface What is the total, hemispherical absorptivity of the surface?
An opaque surface with the prescribed spectral,...
1.0 A diffuse surface at T = (9400) K. has the spectral, hemispherical emissivity illustrated. Determine the following: E2 0.8 2. = 2 um 12 = 5 um a. the total, hemispherical emissivity is ε = (+0.001) E, () E1 0.4 b. the total emissive power is E = kW/m² (+0.1%) 0 2 5 (um)
1.0 A diffuse surface at T = (2200) K. has the spectral, hemispherical emissivity illustrated. Determine the following: 0.8 21 = 2 pm 12 = 5 um a. the total, hemispherical emissivity is ε = (+0.001) E, () E1 0.4 b. the total emissive power is E = kW/m² (+ 0.1%) 0 2 5 (um)
PLEAS SHOW ALL WORK, Explain
your steps for part b pleas!
12.50 A small, opaque, diffuse object at T, = 400 K is sus- pended in a large furnace whose interior walls are at T; = 2000 K. The walls are diffuse and gray and have an emissivity of 0.20. The spectral, hemispherical emissivity for the surface of the small object is given below. 0.7 0.5 w 1 3 a (um) (a) Determine the total emissivity and absorptivity of the...
= 21 1.0 3) A diffuse surface at T = (600 + 200C)K.has the spectral, hemispherical emissivity illustrated. Determine the following: 0.8 2,-2 m 2 - 5 m (2) a. the total, hemispherical emissivity is ε = (+0.001) 0.4 b. the total emissive power is E = kW/m2 (+0.1%) 2 5 2. (um)
PLEAS SHOW all work and
EXPLAIN all steps THANK YOU
- A small, opaque, diffuse object at T, 400 K is sus- pended in a large furnace whose interior walls are at Tf = 2000 K. The walls are diffuse and gray and have an emissivity of 0.20. The spectral, hemispherical emissivity for the surface of the small object is given below. 12. 0.7 0.5 0 1 3 a (um) (a) Determine the total emissivity and absorptivity of the surface....
A solar collector is irradiated by solar flux and a diffuse atmospheric flux. The solar flux is 1000 W/m2, and the angle of incidence is 45°. The effective blackbody sky temperature is 244 K, and the blackbody solar temperature is 5785 K. The collector is a nongray, isothermal diffuse surface with spectral hemispherical emissivity as shown. What is the net radiant flux absorbed by the collector? = 45° T.= 244 K 1000 W/m2 0.9 0.1 T 320 K 2.2 um...
1.0 3) A diffuse surface at T = 1200K.has the spectral, hemispherical emissivity illustrated. Determine the following: o. E2 00 2. = 2 um 12 = 5 um 3 a. the total, hemispherical emissivity is a = (+0.001) E1 0.4 b. the total emissive power is E = kW/m² (+ 0.1%) 0 0 2 5 2. (um)
1.0 3) A diffuse surface at T = (600 + 200)K.has the spectral, hemispherical emissivity illustrated. Determine the following: 0.8 2 - 2 2 - 5 3 a. the total, hemispherical emissivity is a = (+0.001) 0.4 b. the total emissive power is E = kW/m2 (+0.1%) 0 5 2. Gum