361160 Water rises in a capillary tube of radius r upto a height h. The mass of water in a capillary is m. The mass of water that will rise in a capillary of radius \(\frac{r}{4}\) will be

361161 When one end of the capillary is dipped in water, the height of water column is ' \(h\) '. The upward force of 105 dyne due to surface tension is balanced by the force due to the weight of water column. The inner circumference of the capillary is ( surface tension of water \( = 7 \times {10^{ - 2}}\;N/m\) )

361162 Assertion :
The water rises higher in a capillary tube of small diameter than in the capillary tube of large diameter.
Reason :
Height through which liquid rise in capillary tube is inversely proportional to the diameter of capillary tube

361163 The rate of flow of a liquid through a capillary tube is

361160 Water rises in a capillary tube of radius r upto a height h. The mass of water in a capillary is m. The mass of water that will rise in a capillary of radius \(\frac{r}{4}\) will be

361161 When one end of the capillary is dipped in water, the height of water column is ' \(h\) '. The upward force of 105 dyne due to surface tension is balanced by the force due to the weight of water column. The inner circumference of the capillary is ( surface tension of water \( = 7 \times {10^{ - 2}}\;N/m\) )

361162 Assertion :
The water rises higher in a capillary tube of small diameter than in the capillary tube of large diameter.
Reason :
Height through which liquid rise in capillary tube is inversely proportional to the diameter of capillary tube

361163 The rate of flow of a liquid through a capillary tube is

361160 Water rises in a capillary tube of radius r upto a height h. The mass of water in a capillary is m. The mass of water that will rise in a capillary of radius \(\frac{r}{4}\) will be

361161 When one end of the capillary is dipped in water, the height of water column is ' \(h\) '. The upward force of 105 dyne due to surface tension is balanced by the force due to the weight of water column. The inner circumference of the capillary is ( surface tension of water \( = 7 \times {10^{ - 2}}\;N/m\) )

361162 Assertion :
The water rises higher in a capillary tube of small diameter than in the capillary tube of large diameter.
Reason :
Height through which liquid rise in capillary tube is inversely proportional to the diameter of capillary tube

361163 The rate of flow of a liquid through a capillary tube is

361160 Water rises in a capillary tube of radius r upto a height h. The mass of water in a capillary is m. The mass of water that will rise in a capillary of radius \(\frac{r}{4}\) will be

361161 When one end of the capillary is dipped in water, the height of water column is ' \(h\) '. The upward force of 105 dyne due to surface tension is balanced by the force due to the weight of water column. The inner circumference of the capillary is ( surface tension of water \( = 7 \times {10^{ - 2}}\;N/m\) )

361162 Assertion :
The water rises higher in a capillary tube of small diameter than in the capillary tube of large diameter.
Reason :
Height through which liquid rise in capillary tube is inversely proportional to the diameter of capillary tube

361163 The rate of flow of a liquid through a capillary tube is