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Assuming that about 20 MeV of energy is ...

Assuming that about 20 MeV of energy is released per fusion reaction
`1^(H^(2))+1^(H^(2))to2^(He^(4))`
then the mass `1^(H^(2))`consumed per day in a jfusion rector of power 1 MW wll apporximately be :

A

`0.001g`

B

`0.1g`

C

`10.0g`

D

`1000 g`

Text Solution

Verified by Experts

The correct Answer is:
b
`P=10^(6)W`
Time `= 1 day =24 xx 36 xx 10^(2)s`
Energy produced,
`U=Pt=10^(6) xx24 xx 36xx 10^(2)`
`=24 xx 36 xx10^(8) J`
Energy released per fusion reaction is
`20 MeV =32 xx 10^(-13) J`
Energy released per atom of `._(1)H^(2)` is
`32 xx 10^(-13) J`
Number of `._1H^2` atoms used is
`(24 xx 36 xx10^(8))/(32 xx 10^(-12)=22 xx 10^(21))`
Mass of `6 xx10^(23)` atom `=2g`
Mass of `27 xx10^(21)` atoms` =(2)/(6) xx 10^(23) xx 27xx 10^(21) =0.1g.`
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