Related MCQs

• The energy radiated out decreases with increases in α and becomes zero at an angle of
• A black body of 0.2 m2 area has an effective temperature of 800 K. Calculate the intensity of normal radiations
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• Consider a deep-space probe constructed as 1 m diameter polished aluminum sphere. Estimate the equilibrium temperature that the probe reaches if the solar energy received is 300 W/m2. For solar radiation, absorptivity of aluminum is 0.3 and the average emissivity appropriate for aluminum at low temperature is 0.04
• A small surface emits diffusively, and measurements indicate that the total intensity associated with emission in the normal direction I n = 6500 W/square m sr. The emitted radiation is intercepted by three surfaces. Mark calculations for intensity associated with emission
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• If I n denotes the normal intensity and I α represents the intensity at angle α, then
• A_BLACK_BODY_OF_0.2_M<SUP>2</SUP>_AREA_HAS_AN_EFFECTIVE_TEMPERATURE_OF_800_K._CALCULATE_THE_INTENSITY_OF_NORMAL_RADIATIONS?$
• The_energy_radiated_out_decreases_with_increases_in_‚âà√≠¬¨¬±_and_becomes_zero_at_an_angle_of$#
• The total emissive power of the emitter with area d A and temperature T is given b?