(A) The mass defect $(\Delta m)$ is calculated as the difference between the sum of the masses of the reactants and the sum of the masses of the produ

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(A) The mass defect $(\Delta m)$ is calculated as the difference between the sum of the masses of the reactants and the sum of the masses of the products.$\Delta m = (\text{mass of } _1H^2 + \text{mass of } _1H^3) - (\text{mass of } _2He^4 + \text{mass of } _0n^1)$$\Delta m = (2.014 + 3.016) - (4.004 + 1.008) \ amu$$\Delta m = 5.030 - 5.012 = 0.018 \ amu$

Class 12 Chemistry Nuclear Chemistry Nucleus (Stability and Reaction)

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Calculate the mass defect in the following nuclear reaction:
$_1H^2 + _1H^3 \to _2He^4 + _0n^1$
(Given: mass of $_1H^2 = 2.014 \ amu$,$_1H^3 = 3.016 \ amu$,$_2He^4 = 4.004 \ amu$,$_0n^1 = 1.008 \ amu$) (in $amu$)

A
$0.018$
B
$0.18$
C
$0.0018$
D
$1.8$

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Calculate the mass defect in the following nuclear reaction:$_1H^2 + _1H^3 \to _2He^4 + _0n^1$(Given: mass of $_1H^2 = 2.014 \ amu$,$_1H^3 = 3.016 \ amu$,$_2He^4 = 4.004 \ amu$,$_0n^1 = 1.008 \ amu$) (in $amu$)

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Calculate the mass defect in the following nuclear reaction:
$_1H^2 + _1H^3 \to _2He^4 + _0n^1$
(Given: mass of $_1H^2 = 2.014 \ amu$,$_1H^3 = 3.016 \ amu$,$_2He^4 = 4.004 \ amu$,$_0n^1 = 1.008 \ amu$) (in $amu$)