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Excess Pressure in Bubbles

Mercury has a...

Question

Mercury has an angle of contact equal to 140° with soda lime glass. A narrow tube of radius 1.00 mm made of this glass is dipped in a trough containing mercury. By what amount does the mercury dip down in the tube relative to the liquid surface outside? Surface tension of mercury at the temperature of the experiment is 0.465 N m^–1. Density of mercury = 13.6 × 10³ kg m^–3.

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Solution

Angle of contact between mercury and soda lime glass, θ = 140°

Radius of the narrow tube, r = 1 mm = 1 × 10^–3 m

Surface tension of mercury at the given temperature, s = 0.465 N m^–1

Density of mercury, ρ =13.6 × 10³ kg/m³

Dip in the height of mercury = h

Acceleration due to gravity, g = 9.8 m/s²

Surface tension is related with the angle of contact and the dip in the height as:

Here, the negative sign shows the decreasing level of mercury. Hence, the mercury level dips by 5.34 mm.

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Mercury has an angle of contact equal to $140^{\circ}$ with soda lime glass. A narrow tube of radius 1.00 mm made of this glass is dipped in a trough containing mercury. By what amount does the mercury dip down in the tube relative to the liquid surface outside? Surface tension of mercury at the temperature of the experiment is 0.465 N $m^{- 1}$ . Density of mercury = $13.6 \times 10^{3} k g m^{- 3}$ .

Q. Mercury has an angle of contact equal to

140^{o}

with soda lime glass. A narrow tube of radius 1 mm made of this glass is dipped in a trough containing mercury. The surface tension of mercury at the temperature of the experiment is

0.465 N m^{- 1}

. The distance by which the mercury dip down in the tube relative to the mercury surface outside is: (Density of mercury =

13.6 \times 10^{3} k g m^{- 3}

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Q. Mercury has angle of contact equal to

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with glass. A narrow glass tube of radius 0.5 mm is dipped in mercury. By what amount does the mercury dip down? (Surface tension

= 408 \times 10^{- 3} N / m, ρ = 13.6 \times 10^{3} k g / m^{3})

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Q. The lower end of a capillary tube of radius 1 mm is dipped vertically into mercury. (a) Find the depression of mercury column in the capillary. (b) If the length dipped inside is half the answer of part (a), find the angle made by the mercury surface at the end of the capillary with the vertical. Surface tension of mercury = 0.465 N m⁻¹ and the contact angle of mercury with glass −135°.

Q. Water rises to a height of

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