An X-ray tube produces a continuous spectrum of radiation with its short wavelength end at `0.66 Å`. What is the maximum energy of the photon in the radiation ?

(a) An X-ray tube produces a continuous spectrum of radiation with its shorts wavelength end ate 0.45 Å . What is the maximum energy of the photon in the radiation? (b) From your answer to (a) , guess what order of accelerating voltage (for electrons) is required in such a tube?

An X-raytube produces a continuous spectrum of radiation with its short- wavelength end at 0.33 Å . What is the maximum energy of a photon in the radiation?

An X-ray tube produces a continuous spectrum of radiation with its short wavelength end at 0.42Å. What is the maximum energy of photon in the radiation? What is the order of accelerating voltage (for electrons) requirement in such a case? h=6.62xx10^(-34)Js and e=1.6xx10^(-19)C

An X-ray tube produces a continuous spectrum of radiation with its short wavelength end at 0.45Ã… . The maximum energy of a photon in the radiation is

An X - ray tube produces a continuous spectrum of radiation with its shortest wavelength of 45xx10^(-2)Å . The maximum energy of a photon in the radiation in eV is (h = 6.62xx10^(-34)Js, c=3xx10^(8)ms^(-1))

If wavelength of radiation is 4000Å=400nm then the energy of the photon is

What is the energy of photon whose wavelength is 6840 Å ?

An X-rays tube has a short wavelength end at 0.45A . The voltage of tube is

The wavelength of electromagnetic radiation is doubled. What will happen to the energy of the photons of the new radiation ?

What potential difference should be applied across an X-ray tube to get X-ray of wavelength not less than 0.10 nm? What is the maximum energy of a photon of this X-ray in joule?