Mechanical Prop...

A tank with a small hole at the bottom has been filled with water and kerosene (specific gravity $$0.8$$). The height of water is $$3 m$$ and that of kerosene $$2 m$$. When the hole is opened the velocity of fluid coming out from it is nearly : (take  $$g= 10 ms^{-2}$$ and  density  of  water $$  =10^3 kg m^{-3})$$

Two liquids of densities $${ \rho  }_{ 1 }$$ and $${ \rho  }_{ 2 }\left( { \rho  }_{ 2 }=2{ \rho  }_{ 1 } \right) $$ are filled up behind a square wall of side $$10m$$ as shown in figure. Each liquid has a height of $$5m$$. The ratio of the forces due to these liquids exerted on upper part $$MN$$ to that at the lower part $$NO$$ is (Assume that the liquids are not mixing)

lf the terminal speed of a sphere of gold (liquid density $$=1kg/{m^3,density\ of\ solid=5kg/{m^3}}$$ ,gold density=$$15kg/{m^3})$$of the same size in the same liquid.Take $$V_s=4m/s$$

A capillary tube (A) is dipped in water. Another identical tube (B) is dipped in a soap-water solution. Which of the following shows the relative nature of the liquid columns in the two tubes? 

If the density of air is $$\rho_a$$ and that of the liquid $$\rho_l$$, then for a given piston speed the rate (volume per unit time) at which the liquid is sprayed will be proportional to

Ratio of area of hole to beaker is $$ 0.1$$ Height of liquid in beaker is $$3m$$, and hole is at the height of $$52.5 cm$$ from the bottom of beaker, find the square of the velocity of liquid coming out from the hole:

A glass capillary tube is of the shape of truncated cone with an apex angle $$\alpha$$ so that its two ends have cross sections of different radii. When dipped in water vertically, water rises in it to a height $$h$$, where the radius of its cross section is $$b$$. If the surface tension of water is $$S$$, its density is $$\rho$$, and its contact angle with glass is $$\theta$$, the value of $$h$$ will be ($$g$$ is the acceleration due to gravity)

A person in a lift is holding a water jar, which has a small hole at the lower end of its side. When the lift is at rest, the water jet coming out of the hole hits the floor of the lift at a distance $$d$$ of $$1.2 m$$ from the person. In the following, state of the lift's motion is given in List I and the distance where the water jet hits the floor of the lift is given in List II. Match the statements from List I with those in List II and select the correct answer using the code given below the lists.

A wind with speed $$40$$ m/s blows parallel to the roof of a house. The area of the roof is $$250\ m^2$$. Assuming that the pressure inside the house is atmospheric pressure, the force exerted by the wind on the roof and the direction of the force will be $$(\rho_{air}=1.2 \ kg/m^3)$$

A small hole of an area of cross-section $$2 mm^2$$ is present near the bottom of a fully filled open tank of height 2 m. Taking $$g = 10 m/s^2$$,  the rate of flow of water through the open hole would be nearly