The vessel shown in the figure has a two sections of areas of cross-section `A_1` and `A_2`. A liquid of density `rho` fills both th sections, up to a height `h` in each Neglect atmospheric pressure. Choose the wrong option.
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The vessel shown in the figure has two sections. The lower part is a rectangular vessel with area of cross-section A and height h. The upper part is a conical vessel of height h with base area A and top area a and the wals of the vessel are inclined at an angle 30^(@) witht he vertical.A liquid of density rho fills both the sections upto a height 2h. Neglect atmospheric pressure.

A liquid flows through a horizontal tube as shown in figure. The velocities of the liquid in the two sections, which have areas of cross-section A_(1) and A_(2) and v_(1) and v_(2) respectively. The differnece in the levels of the liquid in the two vertical tubes is h . then

A cylinder of mass m and density rho hanging from a string is lowered into a vessel of cross-section area s containing a liquid of density sigma (lt rho) unit it is fully immersed. The increase in pressure at the bottom of the vessel is

The U -tube shown in the figure has a uniform cross section. A liquid is filled up to heights h_(1) and h_(2) in the two arms and they are allowed to move. Neglecting viscosity and surface tension, find the state of the liquid when the levels equalize in the two arms. Find the correct statement.

A fluid of density rho flows through a horizontal pipe having two different cross-section s of areas A and 2A, Th e pressure at the smaller cross-section is P and lluid velocity at that section is v· What is the velocity and pressure at the larger cross-sect ion

Consider a cuboidal vessel (2Rxx2RxxR) with as hemispherical cavity of radius R , kept at a horizontal smooth surface as shown in the figure. The vessel has very small hole of cross-sectional area "a". Now water of density rho is poured into space developed due horizontal surface adn vessel through hole very slowly. When the height of waer level is h , the vessel lifts off the surface and liquid leaks through space generated. (R=2m, rho=10^(3)kg//m^(3),m=9pi kg) . If the value of h is 5kcm , find the value of k . (Atmospheric pressure =10^(5)N//m^(2) ).

Figure here shows the vertical cross-section of a vessel filled with a liquid of density rho . The normal thrust per unit area on the walls vessel at point. P , as shown, will be

A block of mass m and density p is hanging from a string . If it is lowered into a vessel of cross-sectional area A containing a liquid of density sigma(lt rho) and gets fully immered, the increase in pressure at the bottom of vessel would be