Physics, asked by Avni8318, 10 months ago

A narrow glass tube 80 cm long opens at both the ends is half immersed in hg . now top is closed and taken out of hg a 20cm long hg column remain in tube . find atmospheric pressure

Answers

Answered by gardenheart653
4

Answer:

The atmospheric pressure will be equal to 60cm of mercury column.

Step-by-step explanation:

when we have half the tube is immersed in the mercury i.e 40 cm, the air pressure(P) inside the tube should be equal to the mercury pressure in the other half.

hence P =  ρgh = ρg40

Once the tube is removed with upper end closed, the air pressure inside will remain same. Now since the other end is open, this air pressure + the pressure of mercury remaining = the atmospheric pressure at the other end.

=> P₀ = P + ρgh₁

= ρgh + ρgh₁

= ρg(40 + 20)

= 60ρg

Hence atmospheric pressure will be equal to pressure of 60cm of mercury column.

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