a)Find the cross-sectional area of the incoming jet (in cm²) A jet of water flows from left to right and hits a splitter block,as shown in the figure. Some of the jet is diverted upwardsand some of it downwards. The incoming jet has a velocity= 2.7 m/s and a cross-sectional area A₁.U₁=The jet that is deflected upwards has a velocity U₂ = 0.6m/s, a cross-sectional area A25 cm² and is at an angle=0220° with respect to the horizontal.=The jet that is deflected downwards has a velocity U30.8 m/s, a cross-sectional area A3 = 7 cm² and is at anangle 03 35° with respect to the horizontal.The density of water is p = 1000 kg/m³.U₁=A₁A₂U₂Өг3=

u1=2.7 m/su2 = 0.6 m/su3 = 0.8 m/sA2 = 5 cm2A3 = 7 cm2

A jet of water flows from left to right and hits a splitter block, as shown in the figure. Some of the jet is diverted upwards and some of it downwards. The incoming jet has a velocity U₁ = 2.7 m/s and a cross-sectional area A₁. = 0.6 The jet that is deflected upwards has a velocity U₂ m/s, a cross-sectional area A₂ = 5 cm² and is at an angle 20° with respect to the horizontal. 02 = The jet that is deflected downwards has a velocity U3 0.8 m/s, a cross-sectional area A3 7 cm² and is at an angle 3 = 35° with respect to the horizontal. = The density of water is p = 1000 kg/m³. =

A jet of water flows from left to right and hits a splitter block, as shown in the figure. Some of the jet is diverted upwards and some of it downwards. The incoming jet has a velocity U₁ = 2.7 m/s and a cross-sectional area A₁. = 0.6 The jet that is deflected upwards has a velocity U₂ m/s, a cross-sectional area A₂ = 5 cm² and is at an angle 20° with respect to the horizontal. 02 = The jet that is deflected downwards has a velocity U3 0.8 m/s, a cross-sectional area A3 7 cm² and is at an angle 3 = 35° with respect to the horizontal. = The density of water is p = 1000 kg/m³. =