A ball of weight `W` is supported on a vertical jet of water. If the stream of water flowing from the nozzle has a diameter `D` and velocity `u`, determine the value of `H`. Assume that no loss of energy takes place.

A vertically jet of water coming out of a nozzle with velocity 20 m//s supports a plate of mass M stationary at a height h = 15 m , as shown in the figure. If the rate of water flow is 1 litre per second, the mass of the plate is (Assume the collision to be perfectly inelastic).

A gardener holds a pipe of inside cross-sectional area 3.60 cm^(2) at a height of 1.50 m from ground. The opening at the nozzle of pipe has cross-sectional area 0.250 cm^(2) . Water velocity in the segment of the hose that lies on the ground is 50.0 cm//s . a. What is the velocity of water leaving the nozzle? b. What is the thrust force experienced by the gardener due to flow of water through nozzle. c. What is the water pressure in the hose on the ground?

A boat is travelling in a river with a speed 10 m//s along the stream flowing with a speed 2 m//s . From this boat , a sound transmitter is lowered into the river throught a rigid support. The wavelength of the sound emitted from the transmitter inside the water is 14.45 mm . Aassume that attenuation of sound in water and air is neglisible. (a) What will be the frequency delected by a receiver kept inside the river downstream ? (b) The transmitter and the reciver are now pulled up into air. The air is blowing with a speed 5 m//s in the direction opposite the river stream. Determine the frequency of the sound delected by the reciver. (Temperature of the air and water = 20^(@) C , Density of river water = 10^(3) kg//m^(3) , Bulk modulus of the water = 2.088 xx10 ^(9) Pa , Gas constant, R= 8.31 J//mol - K , Mean molecular mass of air = 28.8xx 10 ^(-3) kg//mol , C_(p)//C_(V) for air = 1.4

A small bulb (assumed to be a point source) is placed at the bottom of a tank containing water to a depth of 80 cm . Find out the area of the surface of water through which light from the bulb can emerge. Take the value of refractive index of water to be 4//3 .

A small bulb (assumed to be a point source) is placed at the bottom of a tank containing water to a depth of 80 cm . Find out the area of the surface of water through which light from the bulb can emerge. Take the value of refractive index of water to be 4//3 .

A star like the sun has serveral bodies moving around it at different distance. Consider that all of them are moving in circular orbits. Let r be the distance of the body from the centre of the star and let its linear velocity be upsilon , angular velocity omega , kinetic energy K , gravitational potential energy U , total energy E and angular momentum L . As the radius r of the orbit increase, determine which of the above quantities increase and which ones decrease.

In a garden a spherical sprinkler is used at the end of the lose from which the speed of the flowing water is the same to every direction. The water beam which is directed vertically upward reaches a height of h . Once the sprinkler is placed to the ground and at another time ti a height of h . By what factor will the watered area of greater in the second case ? (Neglect air resistance and consider the pressure in the sprinkler constant.)

A hemi-spherical tank of radius 2 m is initially full of water and has an outlet of 12c m^2 cross-sectional area at the bottom. The outlet is opened at some instant. The flow through the outlet is according to the law v(t)=0.6sqrt(2gh(t)), where v(t) and h(t) are, respectively, the velocity of the flow through the outlet and the height of water level above the outlet and the height of water level above the outlet at time t , and g is the acceleration due to gravity. Find the time it takes to empty the tank.

A boat is travelling in a river with a speed 10m//s along with stream flowing 2m/s. From this boat, a sound transmitter is lowered into the river through a rigid support. The wavelength of the sound emitted from the transmitter inside the water is 14.45mm . Assume that attenuation of sound in water and air is negligible. (a) What will be the frequency detected by a receiver kept inside the river downstream? (b) The transmitter and the receiver are now pulled up into air. the air is blowing with a speed 5m//s in the direction opposite the river stream. Determine the frequency of the sound detected by the receiver. (Temperature of the air and water = 20^(@)C , Density of river water = 10^(3) kg//m^(3) , Bulk modulus of the water = 2.088 xx 10^(9) Pa, gas constant R = 8.31 J//mol-K , Mean molecular mass of air = 28.8 xx 10^(-3) kg//mol , C_(P)//C_(V) for air = 1.4 )

A rectangular tank is placed on a horizontal ground and is filled with water to a height H above the base. A small hole is made on one vertical side at a depth D below the level of the water in the tank. The distance x from the bottom of the tank at which the water jet from the tank will hit the ground is