A bent tube is lowered into a water stream as shown in figure. The velocity of the stream relative to the tube is equal to `v=5 ms^(-1)`. The closed upper end of the tube located at the height `h_(0)`=12 cm has a small orifice.To what height h will the water jet spurt?`(g=10 ms^(-1))`


A. 1.5 m
B. 0.25 m
C. 1.13 m
D. 1 m

A bent tube is lowered into a water stream as shown in figure. The velocity of the stream is V_(1) . The closed upper end is located at a height h_(0) and has a small orifice. To what height h will the liquid get spurt? brgt

The standing wave pattern shown in the tube has a wave speed of 5.0 ms^(-1) . What is the frequency of the standing wave [ in Hz approx.] ?

The power of water pump is 4 kW. If g=10 ms^(-2), the amount of water it can raise in 1 minute to a height of 20 m is

The power of water pump is 4 kW. If g=10 ms^(-2), the amount of water it can raise in 1 minute to a height of 20 m is

When air of density 1.3kg//m^(3) flows across the top of the tube shown in the accompanying figure, water rises in the tube to a height of 1.0cm . What is the speed of air?

Water is flowing continuously from a tap having an internal diameter 8xx10^(-3) m. The water velocity as it leves the tap is 0.4 ms^(-1) . The diameter of the water stream at a distance 2xx10^(-1) m below the tap is close to (g=10m//s^(2))

Water is flowing continuously from a tap having an internal diameter 8xx10^(-3) m. The water velocity as it leves the tap is 0.4 ms^(-1) . The diameter of the water stream at a distance 2xx10^(-1) m below the tap is close to (g=10m//s^(2))

A tube of insufficient length is immersed in water (surface tension =0.7N//m ) with 1 cm of it Given, radius of tube =1mm .

A tube of uniform cross section is used to siphon water from a vessel V as shown in the figure. The pressure over the open end of water in the vessel is atmospheric pressure (P_(0)) . The height of the tube above and below the water level in the vessel are h_(1) and h_(2) , respectively. Determine the velocity v_(B) of the water issuing out at B .

Two bodies are thrown at angles theta and (90- theta ) from the same point with same velocity 25ms^(-1) . If the difference between their maximum heights is 15m, the respective maximum heights are (g=10 ms^(-2) )