An object at rest is suddenly broken apart into two fragments by an explosion one fragment acquires twice the kinetic energy of the other what is the ratio of their masses

First, we use the kinetic energy equation to create a formula: Ka = 2Kb 1/2 (ma*Va^2) = 2 (1/2 (mb*Vb^2)) The 1/2 of the right gets cancelled by the 2 left of the bracket so: 1/2 (ma*Va^2) = mb*Vb^2 (1) By the definiton of momentum we can say: ma*Va = mb*Vb And with some algebra: Vb = (ma*Va) / mb (2) Substituting (2) into (1), we have: 1/2 (ma*Va^2) = mb * ((ma*Va) / mb) ^2 Then: 1/2 (ma*Va^2) = mb * (ma^2*Va^2) / mb^2 We cancel the Va^2 in both sides and cancel the mb at the numerator, leving the denominator of the right side with exponent 1: 1/2 (ma) = (ma^2) / mb Cancel the ma of the left, leaving the right one with exponent 1: 1/2 = ma/mb And finally we have that: mb/2 = ma mb = 2ma