When a body of mass m(1) moving with uni...

When a body of mass `m_(1)` moving with uniform velocity `40 ms^(-1)` collides with another body of mass `m_(2)` at rest, then the two together begin to move with uniform velocity of `30 ms^(-1)`. The ratio of the masses (i.e., `m_(1)//m_(2)`) of the two bodies will be

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When a body of mass `m_(1)` moving with uniform velocity `40 ms^(-1)` collides with another body of mass `m_(2)` at rest, then the two together begin to move with uniform velocity of `30 ms^(-1)`. The ratio of the masses (i.e., `m_(1)//m_(2)`) of the two bodies will be

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