Effect of temperature on capillary rise

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Increasing the temperature of a liquid generally reduces its surface tension, which could lead to decreased capillary rise. However, as temperature rises, the liquid's density decreases, which reduces the weight of the liquid column that needs to be lifted. The overall effect on capillary height depends on the balance between these two factors, varying by liquid and temperature. For example, water's density increases from 0°C to 4°C, complicating the relationship. In equilibrium, the height variation is influenced by the ratio of interfacial energy to density, assuming a constant contact angle.
Binayak95
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We all think that by increasing the temp of a liquid, the surface tension would reduce and so capillary rise will not be as high. But on increasing the temp, the liquid's density also decreases and so the weight of liquid to be lifted also reduces. Which will have the dominating effect, decrease in the weight of liquid leading to an increase in capillary height or a decrease in the surface tension causing a fall in the capillary height?
 
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It will depend on the liquid and the temperatures involved. E.g. water gets denser from 0C to 4C.
 
Presumably you are referring to equilibrium, as opposed to say, thermocapillary flow (Marangoni effect). AFAIK, the interfacial energy is a monotonically decreasing function of temperature (since it goes to zero at the liquid-gas phase transition), but the temperature dependence of the contact angle is less clear- at least, I couldn't easily find any useful data.

Since we are discussing equilibrium, the usual formula applies and the variation of height will go as δ(σ/ρ), where σ is the interfacial energy and ρ the density (assuming the contact angle remains constant).
 

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