A proton is fired from very for away to...

A proton is fired from very for away towards a nucleus with charge Q = 120 e, where e is the electronic charge. It makes a closest approach of 10fm to the nucleus. The de - Broglie wavelength (in units of fm) of the proton at its start is [ take the proton mass, `m_p = (5//3xx10^(-27) kg, hle = 4.2xx10^(-15) J-s//C`, `(1)/(4piepsilon_0) = 9xx10^9m //F, 1 fm = 10^(-15)]`

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A proton is fired from very far away towards a nucleus with charge Q = 120 e, where e is the electronic charge. It makes a closest approach of 10fm to the nucleus. The de - Broglie wavelength (in units of fm) of the proton at its start is take the proton mass, m_p = 5//3xx10^(-27) kg, h//e = 4.2xx10^(-15) J-s//C , (1)/(4piepsilon_0) = 9xx10^9m //F, 1 fm = 10^(-15) .

A proton is first from very loward a nucleus with charge Q = 120 e , where e is the nucles The de Brogle wavelength (in unit of fin) of the proton at its start is (tke the proton mass , m _(p) = (5//3) xx 10^(-27) kg h//s = 4.2 xx 10^(-15) J s // C, (1)/(4 pi s_(0)) = 9 xx 10^(9) m//F , 1 fm = 10^(-15) m

Find the de Broglie wavelength of 2 MeV proton. Mass of proton =1.64xx10^(-27)kg , h=6.625xx10^(-34)Js

Calculate the de Broglie wavelength of proton, if its speed is 10^7 cm//s . Given: mass of proton = 1.67 xx 10^-27 kg .

Find the de-Broglie wavelength (in Å) assciated with a photon moving with a velocity 0.5 c, where c=3xx10^(8)m//s , rest mass of proton =1.675xx10^(-27)kg, h=6.6xx10^(-34)Js .

Calculate the wavelength ( in nanometer ) associated with a proton moving at 1.0xx 10^3 m/s (Mass of proton =1.67 xx 10^(-27) kg and h=6.63 xx 10^(-34) is) :

Calculate the wavelength associated with a proton moving at 1.0xx10^(3)m//s . (Mass of proton =1.67xx10^(-27)kg and h=6.63xx10^(-34) Js)

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