If we assume that perptraing power of an...

If we assume that perptraing power of any radiation/particle is inversely proportional to its de-Broglie wavelength of the particle then:

A

a proton and an `alpha`-particle after getting accelerated through same potential difference will have equal penetrating power

B

penetrating power of `alpha`-particle will be greater than that of proton which have been accelerated by same potential difference

C

proton's penetrating power will be less than penetrating power of an electron which has been accelerated by the same potential difference

D

penetrating powers can not be compared as all these are particle having no wavelength or wave nature.

Text Solution

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The correct Answer is:

B

`lambda=h/p =h/(sqrt(2mE)) rArr h/(sqrt(2m(vq)))`
`:. ` for higher m and q ,
`lambda `will be smaller
For an `'alpha'` particle both 'm' and 'q' are higher
Hence lesser is the wavelength
As, (penetrating power ) `prop` Energy ` prop 1/(lambda)`
From above, penetrating power of an `alpha`-particle is more than that of a proton

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