Home
Class 12
CHEMISTRY
Consider gases confined by a liquid, as ...

Consider gases confined by a liquid, as shown below.
Density of the liquid = `d."gmL"^(-1)`
`h_(1)` and `h_(3)` in mm and `p_(1), p_(2)` and `p_(3)` in mm Hg.

Select correct relation for pressure `p_(3)`

A

`p_("atm") +0.1 h_(1)d`

B

`p_("atm") -0.1 h_(1)d`

C

`p_("atm") + h_(1)d`

D

`p_("atm") -h_(1)d`

Text Solution

Verified by Experts

Doubtnut Promotions Banner Mobile Dark
|

Topper's Solved these Questions

  • STATES OF MATTER

    AAKASH SERIES|Exercise ADDITIONAL PRACTICE EXERCISE- PRACTICE SHEET (ADVANCED) (LINKED COMPREHENSION TYPE QUESTIONS) (PASSAGE- II)|2 Videos

  • STATES OF MATTER

    AAKASH SERIES|Exercise ADDITIONAL PRACTICE EXERCISE- PRACTICE SHEET (ADVANCED) (LINKED COMPREHENSION TYPE QUESTIONS) (PASSAGE- III)|3 Videos

  • STATES OF MATTER

    AAKASH SERIES|Exercise ADDITIONAL PRACTICE EXERCISE- PRACTICE SHEET (ADVANCED) (MORE THAN ONE CORRECT ANSWER TYPE QUESTIONS)|2 Videos

  • SOLUTIONS

    AAKASH SERIES|Exercise Objective Exercise -4|50 Videos

  • STOICHIOMETRY

    AAKASH SERIES|Exercise PRACTICE SHEET (ADVANCED) (INTEGER TYPE QUESTION)|2 Videos

Similar Questions

Explore conceptually related problems

In the above case, if P_(1), P_(2) and P_(3) are their final pressure's. Then

C_(6) H_(5) MgBr overset((1) CO_(2)) underset((2) H_(3) O^(+))(to) P . In the above reaction , product P is

Knowledge Check

  • Consider gases confined by a liquid, as shown below. Density of the liquid = d.gmL^(-1) h_1 and h_3 in mm and p_1 , p_2 and p_3 in mm Hg. Barometric pressure is equal to

    A
    `p_1`
    B
    `p_2`
    C
    `p_3`
    D
    `p_1 + p_2 = p_3`

  • Consider gases confined by a liquid, as shown below. Density of the liquid = d.gmL^(-1) h_1 and h_3 in mm and p_1 , p_2 and p_3 in mm Hg. In terms of barometric pressure (P_(atm)) is

    A
    `p_(atm) + 0.1 h_1d`
    B
    `p_(atm) - 0.1 h_1d`
    C
    `p_(atm) + h_1d`
    D
    `p_(atm) - h_1d`

  • (1 + x)^(n) = p_(0) + p_(1) x + p_(2) x^(2) + … + p_(n) x^(n) , then p_(0) + p_(3) + p_(6) + ….. =

    A
    `(1)/(3) [ 2^(n-1) + cos "" (n pi)/(3)]`
    B
    `(2)/(3) [ 2^(n-1) + cos "" (npi)/(3)]`
    C
    ` (1)/(3) [2^(n-2) + sin "" (npi)/(3)]`
    D
    `(2)/(3) [2^(n-2) + sin"" (npi)/(6)]`

    • Similar Questions

    Explore conceptually related problems

    Consider a vessel filled with a liquid upto height H. The bottom of the vessel lies in the XY-plane passing through the origin. The density of the liquid varies with Z-axis as rho(z)=rho_(0)[2-((z)/(H))^(2)] . If p_(1) and p_(2) are the pressures at the bottom surface and top surface of the liquid, the magnitude of (p_(1)-p_(2)) is

    If A and B are events such that P(A)=p_(1) , P(B)=p_(2) and P(AnnB)=p_(3) then P(barAuuB)=

    The density of gas is 3.8 gL^(-1) at STP. The density at 27^@C and 700mm Hg pressure will be

    Let a_(1), a_(2) ….a_(10) be A.P and h_(1), h_(2)…h_(10) be in H.P. If a_(1)=h_(1)=2 and a_(10)= h_(10)=3 the a_(3)h_(8) =

    Let a_(1), a_(2), …., a_(10) be in A.P and h_(1), h_(2),…. , h_(10) be I H.P if a_(1) = h_(1) = 2 and a_(10) = h_(10) = 3, then a_(4) h_(7) is

    Home
    Profile