. The height of a liquid in a fine capillary tube
(a) Increases with an increase in the density of a liquid
(b) Decreases with a decrease in the diameter of the tube
(c) Decreases with an increase in the surface tension
(d) Increases as the effective value of acceleration due to gravity is decreased
Answers
Answer:
Capillary tube is any thin tube inserted in a liquid to rise the level of liquid inside the tube naturally. When a capillary tube is immersed in liquid, due to the surface tension of liquid, it applies some force on the interface of the tube. Due to this reason, liquid climbs some height in the capillary tube, called capillary rise. Hence some liquid will enter the tube and hence the net weight of the tube will increase.
Formula used:
h=2Tcosθrρg.
Complete answer:
As per the expression:h=2Tcosθrρg, we can say that height climbed by the liquid depends upon the surface tension (T) of the liquid, the angle of contact (θ) between surface of tube and liquid, radius of tube (r), density of liquid (ρ) and net value of acceleration due to gravity (g).
It could be clearly seen that if the effective value of acceleration due to gravity (g) is decreased, the net value of height of column (h) will increase.
So, the correct answer is “Option D”.
Surface tension: It is the property of liquid by the virtue of which the surface of the liquid acts as a stretched membrane. In other words, the surface wants to minimize its area and hence when a body is immersed in a liquid, liquid exerts a force on the touching boundary of the liquid and the body.
Note:
This expression of height could be calculated by equating the weight of water rose with 2πTr, which is the force exerted by the liquid on the container liquid interface so that the force in turn gets applied to the liquid and it gets lifted.
Explanation:
Answer:
Increases as the effective value of acceleration due to gravity is decreased (Option D)
Explanation:
Since the height of capillary tube filled is inversely proportional to gravitational pull.
Hence, if the gravitational pull decreases then capillary rise decreases.