PV

45 cm

dry air

capillary

tube

15 cm

mercury

thread

15 cm

30 cm

dry air

form cross-sectional area in two

arrangements. Using the data in the

7

Fig. 10.17

The set-up illustrated above shows a capillary

tube of uniform cross-sectional area in two

different arrangement. using the

diagrams, calculate the pressure of the

atmosphere.

A 76 cm Hg B 75 cm Hg

C 74 cm Hg D 60 cm Hg

E 45 cm Hg

Question

Marin Mitchell

Physics

1 May, 15:27

PV

45 cm

dry air

capillary

tube

15 cm

mercury

thread

15 cm

30 cm

dry air

form cross-sectional area in two

arrangements. Using the data in the

7

Fig. 10.17

The set-up illustrated above shows a capillary

tube of uniform cross-sectional area in two

different arrangement. using the

diagrams, calculate the pressure of the

atmosphere.

A 76 cm Hg B 75 cm Hg

C 74 cm Hg D 60 cm Hg

E 45 cm Hg

+5

Answers (2)

Know the Answer?

Francisco Santana · Answer 1

The dry air pressure is 75 cm of Hg.

Quinn · Answer 2

The dry air pressure is 75 cm of Hg.

Explanation:

From the set up it can be understood that the mercury thread is present in the middle of the capillary tube. So from the bottom, the top of the mercury thread will exhibit a pressure of P1 as

P1 = p + 15. Here p is the air pressure. Similarly, if the tube is made upside down, then the top of mercury thread will be P2 = p-15 as p is the air pressure.

In both the cases, the product of volume and pressure will be constant as per kinetic theory of gases.

P1 V1 = P2 V2

(p+15) V1 = (p-15) V2

(p+15) 30 = (p-15) 45

Since the volume is given as 30 and 45 respectively.

30 p + 450 = 45 p - 675

45p-30 p = 450 + 675

15 p = 1125

p = 1125/15 = 75 cm of Hg.

So the dry air pressure is 75 cm of Hg.