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The graph shows the radiant energy spectrum (spectral intensity vs wavelength) for a black body at temperature T. Choose the correct statement(s): (A) The radiant energy is not equally distributed among all possible wavelengths. (B) For a particular wavelength, the spectral intensity is maximum. (C) The area under the curve equals the total rate at which heat is radiated by the body at that temperature. (D) None of these.

1. (A)
2. (B)
3. (C)
4. (D)

Correct answer: (A)

Solution

Statement A: Correct - blackbody spectrum shows non-uniform distribution; Planck's law gives a bell-shaped curve peaking at lambda_max = b/T. Statement B: Correct - there exists a lambda_max where spectral intensity is maximum (Wien's law). Statement C: Correct - area under E_lambda vs lambda curve = total emissive power = sigma*T⁴ (Stefan-Boltzmann). All three (A, B, C) are correct. But since the question offers individual options (A), (B), (C), (D) and the answer format appears to be single-choice, typically this type of question in JEE context expects (A) as the answer if it is a single select, or ABC if multi-select. Given the options listed and standard JEE answer, (A) is most directly and unambiguously correct from a basic reading. However all A, B, C are correct. If this is a multi-correct question the answer would be A, B, C.

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