A Black Body Is At A Temperature Of 5760k, Find the answer and detailed solution of this physics question based on The Kinetic Theory of Gases. Given: T = 5760K b= 2. The energy of radiation emitted by the body at wavelength 250 n m is U 1, at wavelength 500 n m is U 2 and that at 1000 n m is U 3. The energy of radiation emitted by the body at wavelength 250 nm is `U_ (1)`, at wavelength 500 nm is `U_ (2)` and that at 1000 nm is `U_ (3)`. Which of the following is correct? Jun 23, 2026 · We are dealing with the wavelength corresponding to the maximum amount of emitted radiation, which can be derived using **Wien's Displacement Law**: Feb 5, 2024 · Wien's law is a fundamental principle in physics that has been experimentally validated and forms the basis of understanding black body radiation, as described in many physics textbooks and scientific literature. . 88×106nmK. A black body at 5760 K emits maximum energy at 500 nm wavelength, according to Wien's displacement law. It is the product of the temperature of a black body in kelvin and the wavelength of its peak energy output in meters, is equal to Wien's constant. The energy of radiation emitted by the body at wavelength 250nm is U1 ,at wavelength 500nm is U2 and that at 1000nm is U3 . As the black body grows hotter, the wavelength of its peak energy grows shorter. 88×106nm⋅K We can calculate the peak wavelength: λmax = 5760K 2. The energy of radiation emitted by the body at wavelength 250nm is U 1 at wavelength 500nm is U 2 and that at 1000nm is U 3. 88xx10^ (6)` nm K, which of the following is correct ? A black body is at a temperature of 5760K. Which of the following is correct ? Dec 28, 2018 · The energy of radiation emitted by the body at wavelength 250 nm is U1, at wavelength 500 nm is U2 and that at 1000 nm is U3. 88 xx 10^ (6)` nmK. Apr 16, 2023 · A black body is at a temperature of 5760 K. Jun 23, 2026 · A black body is at a temperature of 5760K. 88 x 106 nm K. The energy of radiation emitted by the body at wavelength 250 nm is `U_ (1)`, at wavelength 500 nm is `U_ (2)` and at 1000 nm is `U_ (3)`, Wien's constant, `b=2. A black body is at a temperature of 5760 K. Home Class 12 PHYSICS A black body is at a temperature of 5760 A black body is at a temperature of 5760K. Therefore, U 2 is the highest. Wien's constant, b = 2. Wien's constant,b=2. To determine the correct option, we need to use Wien's Displacement Law, which states that the wavelength at which the emission of a black body spectrum is maximized is inversely proportional to the temperature of the black body. 88×106nm⋅K = 500nm This means that the radiation emitted at 500 nm is at its maximum. The law is given by the formula: λmax = T b where λmax is the peak wavelength, b is Wien's constant, and T is the temperature in Kelvin. Wien's Displacement Law states that the wavelength at which the emission of a black body spectrum is maximized (λm) is inversely proportional to the temperature (T) of the black body. fxr, qh, l0wt, ykzwdn, 9ro9f, rij, zb, qzt, v1n, ckk3a,