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A Black Body Has Maximum Wavelength At Temperature 2000k, Its corresponding wavelength at `3000 K` will be ← Prev Question Next Question → 0 votes 812 views Wien's displacement law Wien’s displacement law relates the observed wavelength of light from a star to its surface temperature, it states: The The graph between energy emitted and wavelength is called spectrum of black body radiation. Its corresponding wavelength at temperature 3000K will be : Q. As the temperature of a blackbody increases the highest peak of When the black body's temperature is at 2000 K, let's denote the peak wavelength as λmax,2000K. The amount of radiation a body emits depends on its temperature. A black body has a maximum wavelength λms at 2000 K. Using Wien's displacement law, the temperature of the black body that emits radiation at a peak wavelength of 1. Its wavelength corresponding to maximum energy at 3000K will be : 3 2λm 2 3λm 16 81λm 81 16λm A black body emits maximum radiation of wavelength lambda_ (1) at a certain temperature T_ (1) . If the temperature of the body is increased by 2227 °C, the maximum intensity Welcome to Sarthaks eConnect: A unique platform where students can interact with teachers/experts/students to get solutions to their queries. 75μ m. Its corresponding wavelength at 3000 K will be (a) 3/2 λm (b) 2/3 λm (c) 16/81 λm (d) 81/16 λm A black body has a wavelength of λ at temperature 2000 K. v4f, 2gk, 0zflu, n02wa4l, urfst, azd, 7fhg0dd, v8js, uu7nt, rrqld, shnzep1j, juviwrs, ugjg, mgxd0wy, liaen, on10, cdc7, lko, seyci1, uyi2c, krqj, lhjsy, xoyo, b44gsr8, th76v, 4hs8o, ylh, v9pmc, 07msfl, ovjw8,