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A small spherical ball A of surface area 20 cm² is held at the centre of a hollow spherical shell B whose inner surface area is 80 cm². The surface of A and the inner surface of B behave as black bodies, the space between them is evacuated, and the shell B has very high thermal conductivity. The heat capacities are 42 J/degC for A and 82 J/degC for B. At the instant when A is at 100 degC and B is at 20 degC, what is the approximate rate of change of temperature of ball A? (Take Stefan constant sigma = 5.67*10⁻⁸ W m⁻² K⁻⁴.)
- -0.03 degC/s
- -0.30 degC/s
- -0.017 degC/s
- -0.003 degC/s
Correct answer: -0.03 degC/s
Solution
Heat leaves A by radiation and is absorbed by B across the evacuated gap, so the only mode of transfer is radiation. Because both surfaces are black, the net radiative power emitted by A is P = sigma * A_A * (T_A⁴ - T_B⁴), where A_A is A's surface area. The temperature of A falls at rate -P divided by A's heat capacity. Plugging in A_A = 20*10⁻⁴ m², T_A = 373 K, T_B = 293 K gives P ~ 1.36 W, so dT_A/dt = -1.36/42 ~ -0.03 degC/s.
Related JEE Advanced Physics questions
- Match the temperature of a blackbody listed in Group-I to the corresponding statement in Group-II, and select the correct answer.
[Given: Wien’s constant = 2.9 × 10⁻³ m-K and hc/e = 1.24 × 10⁻⁶ V-m]
Group-I:
(P) 2000 K
(Q) 3000 K
(R) 5000 K
(S) 10000 K
Group-II:
(1) The peak wavelength of emitted radiation can cause photoelectron ejection from a metal with a work function of 4 eV.
(2) The peak wavelength of emitted radiation falls within the visible spectrum.
(3) The peak wavelength of emitted radiation produces the broadest central diffraction maximum in a single-slit setup.
(4) The energy radiated per unit area is one-sixteenth of that emitted by a blackbody at 6000 K.
(5) The peak wavelength of emitted radiation is suitable for imaging human bones.
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- A steel rail track of length 1 km was laid at an ambient temperature of 20 deg C with no gaps for thermal expansion. When the temperature rose to 25 deg C, the track buckled and formed an isosceles triangle shape. Given the coefficient of linear expansion of steel is 14 * 10⁻⁶ per K, find the height of the buckle in metres (to the nearest integer).
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- A continuous-flow calorimeter is used in two separate experiments to find the specific heat of a liquid. In the first trial, supplying 60 W raises the liquid temperature by 10 K. In the second trial, the power is doubled to 120 W, but the same 10 K rise is maintained by tripling the flow rate. Assuming heat loss to surroundings is the same in both trials, what is the power lost to the surroundings?
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