The spectral energy distribution of the sun has a maximum at `4754Å`. If the temperature of the sun is 6050 K, what is the temperature of a star for which this maximum is at `9506Å`?

The sun radiates maximum energy at a wavelength of 4753 Å. If the temperature of the sun is 6076 K, determine the temperature of a star for which maximum energy is emitted at 9300 Å

The spectral energy distribution of the sun (temperature = 6050 K ) has a maximum at 4753Å The temperature of a star for which this maximum is at 9506 Å is

The spectral energy distribution of the sun (temperature = 6050 K ) has a maximum at 4753Å The temperature of a star for which this maximum is at 9506 Å is

The spectral energy distribution of the sun has maxima at 4753overset@A What is the temperature of a star for which spectral distribution has maxima at 10350overset@A [temperature of sun is 6000 K]

The spectral energy distribution of the sun has maxima at 4753 Å . Find the temperature of a star for which spectral distribution has maxima at 10350 Å . [Temperature of sun is 6000 K]

The spectral energy distribution of star is maximum at twice temperature as that of sun. The total energy radiated by star is

The maximum in the energy distribution spectrum of the sun is at wavelength 4753A and its temperature is 6050 K. What will be the temperature of the star whose energy distribution shows a maximum at wavelength 9506A.

The luminousity of a star is 10000 times that of the sun. if the surface temperature of the sun is 6000 K, then the surface temperature of the star is

The wavelength of maximum energy distribution by a star A is 4500 Å at a temperature of 5000 K. Calculate the temperature of star B for which wavelength of maximum energy distribution is 8000 Å.