If 10000 V is applied across an X-ray tube, what will be the ratio of de-Broglie wavelength of the incident electrons to the shortest wavelength X-ray produced?
`((e)/(m)"for electron"=1.8xx10^(11)Ckg^(-1))`

If 10,000V applied across an X-ray tube, what will be the ratio of de Broglie wavelength of the incident electrons to the shortest wavelength of X-ray produced (elm of electron is 1.7 xx 10^(11) C/Kg)

A potential difference of 10^(3) V is applied across an X-ray tube. The ratio of the de-Broglie wavelength of the incident electrons to the shortest wavelength of X-rays products is - (e//m=1.8xx10^(14)C//kg for an electron)

A potential of 10000 V is applied across an x-ray tube. Find the ratio of de-Broglie wavelength associated with incident electrons to the minimum wavelength associated with x-rays.

A potential of 10000 V is applied across an x-ray tube. Find the ratio of de-Broglie wavelength associated with incident electrons to the minimum wavelength associated with x-rays.

If an X-ray tube operates at the voltage of 10kV, find the ratio of the de-broglie wavelength of the incident electrons to the shortest wavelength of X-ray producted. The specific charge of electron is 1.8xx10^11 C/kg .

If an X-ray tube operates at the voltage of 10kV, find the ratio of the de-broglie wavelength of the incident electrons to the shortest wavelength of X-ray producted. The specific charge of electron is 1.8xx10^11 C/kg .

A potential difference of 10^(3) V is applied across an X-ray tube. The ratio of the de-Broglie wavelength of X-rays produced is

A potential difference of 10^(3) V is applied across an X-ray tube. The ratio of the de-Broglie wavelength of X-rays produced is

The potential difference applied to an X-ray tube is V The ratio of the de Broglie wavelength of electron to the minimum wavlength of X-ray is directrly proportional to