A garden hose is positioned as shown in the figure with its open end (#2) is h=2.8 above the faucet end (#1). The gauge pressure(*) at the faucet end (#1) is given as P1=350 kiloPascals and the open end (#2) is open to air, and water is streaming out horizontally. We squeeze the open end (#2) to make the cross sectional area ratio A2/A1=0.5" class="Wirisformula" align="middle" />. At what horizontal distance x from the open end will the water stream land? Enter your answer in meters. Pwater=1000 kg/m3. Accelaration due to gravity is g=9.8 m/s2. (*) Gauge pressure: pressure over atmospheric pressure. Thank you. The image is attached.
A garden hose is positioned as shown in the figure with its open end (#2) is h=2.8 above the faucet end (#1). The gauge pressure(*) at the faucet end (#1) is given as P1=350 kiloPascals and the open end (#2) is open to air, and water is streaming out horizontally. We squeeze the open end (#2) to make the cross sectional area ratio A2/A1=0.5" class="Wirisformula" align="middle" />. At what horizontal distance x from the open end will the water stream land? Enter your answer in meters. Pwater=1000 kg/m3. Accelaration due to gravity is g=9.8 m/s2. (*) Gauge pressure: pressure over atmospheric pressure. Thank you. The image is attached.
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A garden hose is positioned as shown in the figure with its open end (#2) is h=2.8 above the faucet end (#1). The gauge pressure(*) at the faucet end (#1) is given as P1=350 kiloPascals and the open end (#2) is open to air, and water is streaming out horizontally. We squeeze the open end (#2) to make the cross sectional area ratio A2/A1=0.5" class="Wirisformula" align="middle" />. At what horizontal distance x from the open end will the water stream land? Enter your answer in meters. Pwater=1000 kg/m3. Accelaration due to gravity is g=9.8 m/s2. (*) Gauge pressure: pressure over atmospheric pressure. Thank you. The image is attached.
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