Water rises in a vertical capillary tube up to a length of 10 cm. If the tube is inclined at `45^@`, the length of water risen in the tube will be

Water rises in a vertical capillary tube upto a length of 10 cm if the tube is inclined at 45^(@) , the length of water risen will be

Water rises in a vertical capillary tube up to a height of 2.0 cm. If the tube is inclined at an angle of 60^@ with the vertical, then up to what length the water will rise in the tube ?

Water rises in a vertical capillary tube up to a height of 2.0 cm. If the tube is inclined at an angle of 60^@ with the vertical, then up to what length the water will rise in the tube ?

Water rises in a vertical capillary tube upto 10 cm . If the tube is made inclined to the liquid surface at 45^(@) then the water will rise in the tube upto a length equal to

Figure shows a capillary tube of radius r dipped into The atmospheric pressure is P_(0) and the capillary rise of water is h . s is the surface tension for water-glass. Initially, h = 10 cm . If the capillary tube is now incline at 45^@, the length of water rising in the tube will be

Figure shows a capillary tube of radius r dipped into The atmospheric pressure is P_(0) and the capillary rise of water is h . s is the surface tension for water-glass. Initially, h = 10 cm . If the capillary tube is now incline at 45^@, the length of water rising in the tube will be

The figure shows a capillary tube of radius r dipped into water. The atmospheric pressure is p_0 and the capillary rise of water is h. the surface tension for water-glass is s Initially, h = 10cm. If the capillary tube is now inclined at 45^@ , the length of water rising in the tube will be

Figure shows a capillary tube of radius r dipped into The atmospheric pressure is P_(0) and the capillary rise of water is h . s is the surface tension for water-glass. Initially, h = 10 cm . If the capillary tube is now incline at 45^@ , the length of water rising in the tube will be

Water rises in a capillary tube to a height 4 cm. If the tube is inclined at an angle of 45^(@) with the vertical , find the position of the water in the tube.

Water rises in a capillary tube through a height l . If the tube is inclined to the liquid surface at 30^(@) the liquid will rise in the tube upto it's length equal to