1. Calculate the total binding energy of Be nucleus assuming that it's mass тве = 8.00531 u. (Atomic mass unit: 1 u = 1.

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1. Calculate the total binding energy of Be nucleus assuming that it's mass тве = 8.00531 u. (Atomic mass unit: 1 u = 1.66053886 x 10-27 kg, and c2 = 931.494013 MeV/u.). 2. Assuming that a single proton is a sphere of radius 1 fm and two protons are fired at each other with the same kinetic energy Ex, calculate (a) the final Exif these particles are brought to rest by their mutual Coulomb repulsion when they are just touching each other? Taking this value of Ey as a representative measure of the height of the Coulomb barrier, calculate (b) the temperature of a gas of protons that have this average kinetic energy and thus have equal to the height of the Coulomb barrier? kg = 1.38 x 10-23 JIK. 3. The ratio of 235U to 238U in natural uranium deposits today is 0.0072. What was this ratio 2 billion years ago if known that the half-life of the two isotopes is 7.04 x 108 years and 4.47 x 109 years, respectively?