Question on Calculating Power and Force of Water Ejected from a Pipe

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The discussion focuses on calculating the force exerted by a stream of water ejected from a pipe and the power required by the pump to achieve this. A stream of water traveling at 30 m/s from a pipe with a cross-sectional area of 40 cm² impacts a wall, and the force can be derived using Newton's second law, F = Δ(mv)/Δt. The necessary power can be calculated using the formula P = Fv, where v is the velocity of the water. The density of water is given as 1000 kg/m³, which is essential for determining the mass flow rate.

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A stream of water traveling horizontally at 30m/s is ejected from a pipe of cross-sectional area 40 cm squared and is directed against a vertical wall. Calculate the force exerted on the wall assuming that the water does not rebound.
What is the power of the pump needed to give the ejected water the necessary kinetic energy?


(Density of water = 1000kg/mcubed)



All i know so far is that due to Newtons 3rd law is that if of course there is an exerting force then the forces must be equal and opposite and the value must be negative, but that's all I've got really anyone can anyone help?
 
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Power as far as I know is work/time=A/t, as you should know: A=Fscos(teta), F - force, s - displacement, teta - angle between force and displacement vectors. in this case i guess teta can be taken as zero. if you divide both sides of A=Fs by time t, you get that power P is: P=Fv, where v is the speed. so you need only force to find power. and force can be found by second Newton's Law:
F=\frac{\Delta (mv)}{\Delta t}
which says that force is equal to change rate in the momentum, if v=30m/s, and v2=0m/s (when water hits the wall), then
F=\frac{m(v-v_2)}{\Delta t}=\frac{mv}{\Delta t}
to find m, take some value of \Delta t, and calculate what volume of water ejects from pipe in that time and multiply this volume by water density. Hope this will help ;]
 
This did help indeed
Thnx
 

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