{"title":"peaks1","description":"The peak wavelength is the highest point on the curve. This shows the wavelength that is being most intensely emitted. BUT REMEMBER, the star is still emitting at other wavelengths.","type":"correct","color":"#99cc00","code":"[{\"shape\":\"circle\",\"coords\":\"70,70,19\"}]"}{"title":"peaks2","description":"The peak wavelength is the highest point on the curve. This shows the wavelength that is being most intensely emitted. BUT REMEMBER, the star is still emitting at other wavelengths.","type":"correct","color":"#993300","code":"[{\"shape\":\"circle\",\"coords\":\"110,335,18\"}]"}{"title":"peaks3","description":"The peak wavelength is the highest point on the curve. This shows the wavelength that is being most intensely emitted. BUT REMEMBER, the star is still emitting at other wavelengths.","type":"correct","color":"#333300","code":"[{\"shape\":\"circle\",\"coords\":\"171,469,17\"}]"}
{"title":"coolest","description":"You could have used Wien's Law, or perhaps even Stefan-Boltzmann's Law to come to this conclusion....","type":"correct","color":"#99cc00","code":"[{\"shape\":\"poly\",\"coords\":\"68,492,186,457,366,496,339,499,212,480,165,480,94,499,49,498\"}]"}