Problems

  1. Calculate the maximum net rate of loss of heat by radiation from a sphere of 10 cm radius at a temperature of 200 °C when the surroundings are at a temperature of 20 °C, if Stefan's constant is 5.7 × 10−5 ergs/sq cm/s/deg4.

    Ans. 3.659 × 109 ergs/s

  2. Calculate the radiation loss per sq cm per second from a black cylinder of emissivity 0.95 at 327°C when surrounded by an enclosure at 27 °C.

    Ans. 6579 × 103 ergs

  3. A hot black body of mass 64 gm, area 16 sq cm and specific heat 0.1 cal/gm/ °C is allowed to cool inside an evacuated enclosure surrounded by melting ice. It is found that at 300 °C, the body cools at the rate of 21 °C per minute; calculate Stefan's constant.

    Ans. 1.37 × 10−12 cal/sq cm/s/deg4C

  4. A solid copper sphere cools at the ...

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