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))`

Similar Questions

Explore conceptually related problems

In two systems of relations among velocity , acceleration , and force are , respectively , v_(2) = (alpha^(2))/( beta) v_(1) , a_(2) = alpha beta a_(1), and F_(2) = (F_(1))/( alpha beta) . If alpha and beta are constants , then make relations among mass , length , and time in two systems.

Determine current through batteries epsilon_(1) and epsilon_(2)

The dimensions of 1/2 epsilon E^2 . Where epsilon_0 is permittivity of free space and E is electric field is

If 1 ,epsilon ,epsilon^(2) are the cube roots of unity then : 1/(1+2epsilon) + 1/(2+epsilon) - 1/(1+epsilon)

Two batteries of emfs epsilon_(1) and epsilon_(2) (epsilon_(2) gt epsilon_(1)) and internal resistances r_(1) and r_(2) respectively are connected in parallel as shown in fig.

Two batteries of emf epsilon_(1) and epsilon_(2) (epsilon_(2) gt epsilon_(1)) and internal resistances r_(1) and r_(2) respectively are connected in parallel as shown in figure.

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))`

Similar Questions

Recommended Questions

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))`