Physics, asked by arusheerakesh, 2 months ago

The height of mercury column in a barometer in a
Calcutta laboratory was recorded to be 75 cm. Calculate
this pressure in SI and CGS units using the following
data : Specific gravity of mercury = 13.6, Density of
water =
108 kg/m", g
9.8 m/s’ at Calcutta. Pressure
hpg in usual symbols.​

Answers

Answered by nareshpatle1915
3

Explanation:

Height of the Mercury Column in a Barometer = 75 cm.

For Finding the Pressure in S.I. System, Changing 75 cm into meter.

∴ Height of the Mercury column(h) = 75 cm.

    = 0.75 m.

Acceleration due to gravity(g) = 9.8m/s2

Density of the Water =103kg/m3.

=1000kg/m3

Specific Gravity of the Mercury = 13.6

Specific Gravity of the Substance is the Ratio of the Density of the Substance to the Density of the Water.

∴ Specific Gravity = Density of the Substance /Density of the Water.

⇒ Density of the Mercury(ρ) = 1.3×1000

     = 1300kg/m3.

Now,

Using the Formula,

  Pressure(P) = hρg

   = 0.75×1300×9.8

   = 9555 Pa.

Hence, the Pressure is 9555 Pa.

For Finding the Pressure in C.G.S. System,

Height of the Mercury Column(h) = 75 cm.

Acceleration due to gravity(g) = 9.8m/s2

=9.8×100cm/s2

=980cm/s2.

Density of the Water =1000kg/m3.

 = 1000×106g/106cm3.

 = 106/106g/cm3.

 = 1g/cm3

∴ Density of the Mercury(ρ) = Specific Gravity of the Mercury × Density of the Water.

=1.3×1

=1.3g/cm3.

Now Using the Formula,

  Pressure(P)= hρg

    = 75×1.3×980

    = 9550 Ba.

Hence the Pressure is 9550 barye.

Answered by saniyapatle45
1

Explanation:

The height of mercury column in a barometer in a

Calcutta laboratory was recorded to be 75 cm.

Similar questions