Answer Happy

Posted: **Fri Jul 08, 2022 5:43 am**

: Question 2 3 Points In A Laboratory Test Simulated Solar Beam Radiation Strikes A Window Glazing Specimen At Incident 1 (35.96 KiB) Viewed 56 times

: Question 2 3 Points In A Laboratory Test Simulated Solar Beam Radiation Strikes A Window Glazing Specimen At Incident 2 (33.26 KiB) Viewed 56 times

: Question 2 3 Points In A Laboratory Test Simulated Solar Beam Radiation Strikes A Window Glazing Specimen At Incident 3 (27.8 KiB) Viewed 56 times

Question 2 (3 points) In a laboratory test, simulated solar beam radiation strikes a window glazing specimen at incident angle = 45°. The surface area of the specimen is 2.5 m². The intensity of the beam radiation (measured in the direction of travel) is 990 W/m². The solar heat gain through the specimen is measured to be 375 W. The value SHGC for this test condition is closest to which of the following options? 0.1 0.2 0.3 0.4
Question 5 (3 points) Which two of the following technologies will generally not have an impact on the center-of-glass U-value of a window? (Note: Both choices must be correct to earn the marks for this question.) triple glazing low-e coating on surface #3 fiberglass frame low-e coating on surface #2 low-conductivity spacer argon-filled cavity
Question 4 (2 points) In the "Building Envelope Thermal Bridging Guide", the main thermal transmittance equation is: UT = Uo+ When working in metric units, the units of the term would most likely be: W m².K ΟΚ W Σ(L)+Σ(x) Atotal OW m.