Physics-
General
Easy

Question

The velocity of the liquid coming out of a small hole of a vessel containing two different liquids of densities 2rho and rho as shown in figure is

  1. square root of 6 g h end root    
  2. 2 square root of g h end root    
  3. 2 square root of 2 g h end root    
  4. square root of g h end root    

The correct answer is: 2 square root of g h end root

Related Questions to study

General
Physics-

A narrow tube completely filled with a liquid is lying on a series of cylinders as shown in figure. Assuming no sliding between any surfaces, the value of acceleration of the cylinders for which liquid will not come out of the tube from anywhere is given by

A narrow tube completely filled with a liquid is lying on a series of cylinders as shown in figure. Assuming no sliding between any surfaces, the value of acceleration of the cylinders for which liquid will not come out of the tube from anywhere is given by

Physics-General
General
Physics-

A U-tube of base length blank to the power of ´ ´ end exponent lambda to the power of ´ ´ end exponent filled with same volume of two liquids of densities rho and 2rho is moving with an acceleration “a” on the horizontal plane. If the height difference between the two surfaces (open to atmosphere) becomes zero, then the height h is given by:

A U-tube of base length blank to the power of ´ ´ end exponent lambda to the power of ´ ´ end exponent filled with same volume of two liquids of densities rho and 2rho is moving with an acceleration “a” on the horizontal plane. If the height difference between the two surfaces (open to atmosphere) becomes zero, then the height h is given by:

Physics-General
General
Physics-

In the figure shown water is filled in a symmetrical container. Four pistons of equal area A are used at the four opening to keep the water in equilibrium. Now an additional force F is applied at each piston. The increase in the pressure at the centre of the container due to this addition is

In the figure shown water is filled in a symmetrical container. Four pistons of equal area A are used at the four opening to keep the water in equilibrium. Now an additional force F is applied at each piston. The increase in the pressure at the centre of the container due to this addition is

Physics-General
parallel
General
Physics-

A cylindrical container of radius 'R' and height ' h ' is completely filled with a liquid. Two horizontal L shaped pipes of small cross-section area 'a' are connected to the cylinder as shown in the figure. Now the two pipes are opened and fluid starts coming out of the pipes horizontally in opposite directions. Then the torque due to ejected liquid on the system is:

A cylindrical container of radius 'R' and height ' h ' is completely filled with a liquid. Two horizontal L shaped pipes of small cross-section area 'a' are connected to the cylinder as shown in the figure. Now the two pipes are opened and fluid starts coming out of the pipes horizontally in opposite directions. Then the torque due to ejected liquid on the system is:

Physics-General
General
Physics-

A cylindrical vessel filled with water is released on an inclined surface of angle theta as shown in figure. The friction coefficient of surface with vessel is mu left parenthesis less than t a n invisible function application theta right parenthesis Then the constant angle made by the surface of water with the incline will be:

A cylindrical vessel filled with water is released on an inclined surface of angle theta as shown in figure. The friction coefficient of surface with vessel is mu left parenthesis less than t a n invisible function application theta right parenthesis Then the constant angle made by the surface of water with the incline will be:

Physics-General
General
Physics-

Two spheres P and Q of equal radii have densities rho subscript 1 end subscript and rho subscript 2 end subscript, respectively. The spheres are connected by a massless string and placed in liquids L subscript 1 end subscript and L subscript 2 end subscript of densities sigma subscript 1 end subscript and sigma subscript 2 end subscript and viscosities eta subscript 1 end subscript and eta subscript 2 end subscript, respectively. They float in equilibrium with the sphere P in L subscript 1 end subscript and sphere Q in L subscript 2 end subscript and the string being taut (see figure). If sphere P along in L2 has terminal velocity stack Y with rightwards arrow on top subscript p end subscript and Q in L subscript 1 end subscript has terminal velocity stack V with rightwards arrow on top subscript Q end subscript, then

Two spheres P and Q of equal radii have densities rho subscript 1 end subscript and rho subscript 2 end subscript, respectively. The spheres are connected by a massless string and placed in liquids L subscript 1 end subscript and L subscript 2 end subscript of densities sigma subscript 1 end subscript and sigma subscript 2 end subscript and viscosities eta subscript 1 end subscript and eta subscript 2 end subscript, respectively. They float in equilibrium with the sphere P in L subscript 1 end subscript and sphere Q in L subscript 2 end subscript and the string being taut (see figure). If sphere P along in L2 has terminal velocity stack Y with rightwards arrow on top subscript p end subscript and Q in L subscript 1 end subscript has terminal velocity stack V with rightwards arrow on top subscript Q end subscript, then

Physics-General
parallel
General
Physics-

A wooden cylinder of diameter 4r, height H and density rho/3 is kept on a hole of diameter 2r of a tank, filled with liquid of density rho as shown in the figure. The block in the above question is maintained at the position by external means and the level of liquid is lowered. The height h subscript 2 end subscript when this external force reduces to zero is :–

A wooden cylinder of diameter 4r, height H and density rho/3 is kept on a hole of diameter 2r of a tank, filled with liquid of density rho as shown in the figure. The block in the above question is maintained at the position by external means and the level of liquid is lowered. The height h subscript 2 end subscript when this external force reduces to zero is :–

Physics-General
General
Physics-

A wooden cylinder of diameter 4r, height H and density rho/3 is kept on a hole of diameter 2r of a tank, filled with liquid of density rho as shown in the figure. Now level of the liquid starts decreasing slowly. When the level of liquid is at a height h subscript 1 end subscript above the cylinder the block starts moving up. At what value of h subscript 1 end subscript , will the block rise :–

A wooden cylinder of diameter 4r, height H and density rho/3 is kept on a hole of diameter 2r of a tank, filled with liquid of density rho as shown in the figure. Now level of the liquid starts decreasing slowly. When the level of liquid is at a height h subscript 1 end subscript above the cylinder the block starts moving up. At what value of h subscript 1 end subscript , will the block rise :–

Physics-General
General
Physics-

A glass tube of uniform internal radius (r) has a valve separating the two identical ends. Initially, the valve is in a tightly closed position. End 1 has a hemispherical soap bubble of radius r. End 2 has sub–hemispherical soap bubble as shown in figure. Just after opening the valve,

A glass tube of uniform internal radius (r) has a valve separating the two identical ends. Initially, the valve is in a tightly closed position. End 1 has a hemispherical soap bubble of radius r. End 2 has sub–hemispherical soap bubble as shown in figure. Just after opening the valve,

Physics-General
parallel
General
Physics-

Water is filled up to a height h in a beaker of radius R as shown in the figure. The density of water is rho, the surface tension of water is T and the atmospheric pressure is P subscript 0 end subscript. Consider a vertical section ABCD of the water column through a diameter of the beaker. The force on water on one side of this section by water on the other side of this section has magnitude :–

Water is filled up to a height h in a beaker of radius R as shown in the figure. The density of water is rho, the surface tension of water is T and the atmospheric pressure is P subscript 0 end subscript. Consider a vertical section ABCD of the water column through a diameter of the beaker. The force on water on one side of this section by water on the other side of this section has magnitude :–

Physics-General
General
Physics-

Water is filled in a cylindrical container to a height of 3 m. The ratio of the cross–sectional area of the orifice and the beaker is 0.1. The square of the speed of the liquid coming out from the orifice is open parentheses g equals 10 m divided by s to the power of 2 end exponent close parentheses

Water is filled in a cylindrical container to a height of 3 m. The ratio of the cross–sectional area of the orifice and the beaker is 0.1. The square of the speed of the liquid coming out from the orifice is open parentheses g equals 10 m divided by s to the power of 2 end exponent close parentheses

Physics-General
General
Physics-

The pressure of a medium is changed from 1.01 cross times 10 to the power of 5 end exponent P a text  to  end text 1.165 cross times 10 to the power of 5 end exponentPa and change in volume is 10% keeping temperature constant. The bulk modulus of the medium is :–

The pressure of a medium is changed from 1.01 cross times 10 to the power of 5 end exponent P a text  to  end text 1.165 cross times 10 to the power of 5 end exponentPa and change in volume is 10% keeping temperature constant. The bulk modulus of the medium is :–

Physics-General
parallel
General
Physics-

The adjacent graph shows the extension left parenthesis capital delta l) of a wire of length 1m suspended from the top of a roof at one end and with a load W connected to the other end. If the cross–sectional area of the wire is 10 to the power of negative 6 end exponent m to the power of 2 end exponent, calculate the Young's modulus of the material of the wire :–

The adjacent graph shows the extension left parenthesis capital delta l) of a wire of length 1m suspended from the top of a roof at one end and with a load W connected to the other end. If the cross–sectional area of the wire is 10 to the power of negative 6 end exponent m to the power of 2 end exponent, calculate the Young's modulus of the material of the wire :–

Physics-General
General
Physics-

A wooden block, with a coin placed on its top, floats in water as shown in figure. The distance l and h are shown there. After sometime the coin falls into the water. Then :–

A wooden block, with a coin placed on its top, floats in water as shown in figure. The distance l and h are shown there. After sometime the coin falls into the water. Then :–

Physics-General
General
Physics-

A hemispherical portion of radius R is removed from the bottom of a cylinder of radius R. The volume of the remaining cylinder is V and mass M. It is suspended by a string in a liquid of density rho, where it stays vertical. The upper surface of the cylinder is at a depth h below the liquid surface. The force on the bottom of the cylinder by the liquid is :–

A hemispherical portion of radius R is removed from the bottom of a cylinder of radius R. The volume of the remaining cylinder is V and mass M. It is suspended by a string in a liquid of density rho, where it stays vertical. The upper surface of the cylinder is at a depth h below the liquid surface. The force on the bottom of the cylinder by the liquid is :–

Physics-General
parallel

card img

With Turito Academy.

card img

With Turito Foundation.

card img

Get an Expert Advice From Turito.

Turito Academy

card img

With Turito Academy.

Test Prep

card img

With Turito Foundation.