In two systems of units the relation bet...

In two systems of units the relation between velocity, acceleration and force is given by `v_(2) = (v_(1)epsilon^(2))/(tau), a_(2) = a_(1) epsilon tau, F_(2) = (F_(1))/(epsilon tau)`, where `epsilon` and `tau` constants then find in this new system:
(a) `(m_(2))/(m_(1))` , (b) `(L_(2))/(L_(1))`

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The correct Answer is:

(a)`1/(epsilon^2tau^2) ; (b)epsilon^2/tau^3`

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AAKASH INSTITUTE ENGLISH-UNITS AND MEASUREMENTS-ASSIGNMENT SECTION J (Aakash Challengers )

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In two systems of units the relation between velocity, acceleration and force is given by `v_(2) = (v_(1)epsilon^(2))/(tau), a_(2) = a_(1) epsilon tau, F_(2) = (F_(1))/(epsilon tau)`, where `epsilon` and `tau` constants then find in this new system: (a) `(m_(2))/(m_(1))` , (b) `(L_(2))/(L_(1))`

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AAKASH INSTITUTE ENGLISH-UNITS AND MEASUREMENTS-ASSIGNMENT SECTION J (Aakash Challengers )

In two systems of units the relation between velocity, acceleration and force is given by `v_(2) = (v_(1)epsilon^(2))/(tau), a_(2) = a_(1) epsilon tau, F_(2) = (F_(1))/(epsilon tau)`, where `epsilon` and `tau` constants then find in this new system:
(a) `(m_(2))/(m_(1))` , (b) `(L_(2))/(L_(1))`