Hence, calculate the wavelength at which the peak of the black-body spectrum of this star appears when observed from Earth.

Calculate the wavelength of the peak in nanometres (nm) of the black-body spectrum emitted by the surface of the star at a temperature of 8200 K. Give your answer to the nearest nm.

A star at a temperature of 8200 K is observed in a distant galaxy at redshift = 2.7.(i) Which equation relates the observed wavelength, to the actual wavelength, , emitted by the star? Select the correct option from the following.

The surface temperature of the star Epsilon Indi is 4600 K.(a) (i) Determine the peak wavelength of the radiation emitted by Epsilon Indi

From laboratory measurements, we know that a particular spectral line formed by hydrogen atom appears at a wavelength of 486.1 nanometers (nm). The spectrum of a particular star shows the same hydrogen line appearing at a wavelength of 485.9 nm. What can we conclude?

An astronomer is trying to estimate the surface temperature of a star with a radius of 5.0×108m5.0×108m by modeling it as an ideal blackbody. The astronomer has measured the intensity of radiation due to the star at a distance of 2.5×1013m2.5×1013m and found it to be equal to 0.055W/m20.055W/m2 . Given this information, what is the temperature of the surface of the star?