If two cylinders of equal volumes have their heights in the ratio 2 : 3, then the ratio of their radii is `sqrt(6)\ :sqrt(3)` (b) `sqrt(5)\ :sqrt(3)` (c) `2\ :3` (d) `sqrt(3)\ :sqrt(2)`

If two cylinders of equal volumes have their heights in the ratio 2:3, then the ratio of their radii is sqrt(6)backslash sqrt(3)(b)sqrt(5)backslash:sqrt(3)(c)2backslash3(d)sqrt(3)backslash:sqrt(2)

Two circular cylinder of equal volume have their heights in the ratio 1:2. Ratio of their radii is 1:sqrt(2) (b) sqrt(2):1(c)1:2(d)1:4

Two circular cylinder of equal volume have their heights in the ratio 1:2. Ratio of their radii is (a) 1:sqrt(2) (b) sqrt(2):1 (c) 1:2 (d) 1:4

If the angles of a triangle are in the ratio 4:1:1 then the ratio of the longest side to the perimeter is- sqrt(3):(2+sqrt(3)) b.1:sqrt(3)c1:2+sqrt(3)d.2:3

If the angles of a triangle are in the ratio 4:1:1, then the ratio of the longest side to the perimeter is (a) sqrt(3):(2+sqrt(3)) (b) 1:6 (c) 1:2+sqrt(3) (d) 2:3

(2sqrt(6))/(sqrt(2)+sqrt(3)+sqrt(5)) equals

The rationalisation factor of 2+sqrt(3) is (a) 2-sqrt(3) (b) sqrt(2)+3 (c) sqrt(2)-3 (d) sqrt(3)-2

The rationalisation factor of sqrt(3) is (a) -sqrt(3) (b) 1/(sqrt(3)) (c) 2sqrt(3) (d) -2sqrt(3)

The rationalisation factor of sqrt(3) is -sqrt(3) (b) (1)/(sqrt(3))(c)2sqrt(3)(d)-2sqrt(3)