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A sample of HCI gas is placed in a unifo...

A sample of HCI gas is placed in a uniform electric field of magnitude `3xx10^(4)N.C^(-1)` . The dipole moment of each HCI molecule is `3.4xx10^(-39)` Cm. Calculate the maximum torque experienced each HCI molecule.

Answer

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A sample of HCI gas is placed in a uniform electric field of magnitude 3xx 10^4 N C^(-1) . The dipole moment of each HCI molecule is 3.4 xx 10^(-39) cm. Calculate the maximum torque experienced by each HCI molecule.

A sample of HCl gas is placed in a uniform electric field of magnitude 3 xx 10^(4)" N C"^(-1) . The dipole moment of each HCl molecule is 3.4 xx 10^(-30) Cm. Calculate the maximum torque experienced by each HCl molecule.

Knowledge Check

  • Volume of gas at STP is 1.12xx10^(-7)c c . Calculate the number of molecules in it.

    A
    `3.011xx10^(20)`
    B
    `3.011xx10^(12)`
    C
    `3.011xx10^(23)`
    D
    `3.011xx10^(24)`

  • Volume of a gas at STP is 1.12xx10 ^(-7) cc . Calculate the number of molecules in it :

    A
    `3.01xx10 ^(20)`
    B
    `3.01 xx 10 ^(15)`
    C
    `3.01xx 10 ^(23)`
    D
    `3.01 xx 10^(24)`

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    A smple of HCl gas is placed in an electric field of 2.5xx 10^4 NC^(-1) . The dipole moment of each HCl molecule is 3.4 X 10^(-30) Cm. find the maximum torque that can act on a molecule.

    Three point A, B & C lie in a uniform electric field (E) of 5xx10^(3)NC^(-1) . Find the potential difference between A & C.

    A vertical electric field of magnitude 4.00xx 10^5 NC^(-1) . just prevents a water droplet of mass 1.000xx10^(-4) kg from. falling., find the charge on the droplet.

    A closed triangular box is kept in an electric field of magnitude E=2xx10^(3)NC^(-1) as shown in the figure. Calculate the electric flux through the vertical rectangular surface

    A closed triangular box is kept in an electric field of magnitude E = 2 xx 10^(3)"N C"^(-1) as shown in figure. Calculate the electric flux through the slanted surface and

    The density of an ideal gas is 1.25xx10^(-3)g cm^(-3) at STP. Calculate the molecular weight of the gas.

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