Stationery nucleus `.^(238)U` decays by a emission generaring a total kinetic energy T:
`._(92)^(238) rarr ._(90)^(234)Th +._2^4 alpha`
What is the kinetic energy of the `alpha`-particle?

Stationary nucleus ._(92)^(238)U decays by a emission generating a total kinetic energy T: ._(92)^(238)U rarr ._(90)^(234)Th +._2^4 alpha What is the kinetic energy of the alpha -particle?

The nucleus ._(92)^(235)U decays according to ._(92)^(238)U rarr ._(92)^(234)Th + ._(2)^(4)He . Calculate the kinetic energy of the emitted alpha -particle ._(92)^(238)U = 3.85395 xx 10^(-25) kg " " ._(90)^(234)Th = 3.78737 xx 10^(-25) kg " " ._(2)^(4)He = 6.64807 xx 10^(-27)

Determine the number of protons and neutrons in ""_(92)U^(238) and ""_(90)Th^(234) .

A ._(92)^(238)Th undergoes alpha decay. What is the resulting daughter nucleus?

A ._(92)^(238)U undergoes alpha decay. What is the resulting daughter nucleus?

The radioactive decay of uranium into thorium is represented by the equation: ._(92)^(238)Urarr._(90)^(234)Th+x What is x ?

The radioactive decay of uranium into thorium is represented by the equation: ._(92)^(238)Urarr._(90)^(234)Th+x What is x ?