Water rises to a height of 10 cm in a ca...

Water rises to a height of `10 cm` in a capillary tube and mercury falls to a depth of `3.42 cm` in the same capillary tube. If the density of mercury is `13.6 g//c.c.` and the angles of contact for mercury and water n for water and are `135^(2)` and `0^@`, respectively, the ratio of surface, tension for water and mercury is

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Water rises to a height of 10 cm in a capillary tube and mercury falls to a depth of 3.42 cm in the same capillary tube. If the density of mercury is 13.6 g//c.c. and the angles of contact for mercury and for water are 135^@ and 0^@ , respectively, the ratio of surface tension for water and mercury is

Water rises to a height of 10cm in a capillary tube and mercury falls to a depth of 3.42 cm in the same capillary tube. If the density of mercury is 13.6gm/cc and the angle of contact is 135^@ . Find ratio of surface tensions of water and mercury

Water rises to a height 0f 10 cm in a capillary tube, and mercuryfalls to a depth of 3.42 cm in the same capillary tube. IF the density of mercury is 13.6 and the angle of contact is 135^(@) , the ratio of surface tension for water and mercury is

Water rises to a height of 10 cm in capillary tube and mercury falls to a depth of 3.112 cm in the same capillary tube. If the density of mercury is 13.6 and the angle of contact for mercury is 135^(@) , the ratio of surface tension of water and mercury is

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