Answer to Question #278759 in Astronomy | Astrophysics for Gingging

Explanations & Calculations

• Hello Gingging,

• This whole thing deal with the Bernoulli's law and the concept of volumetric flow rate.
• Since the water is incompressible, the volumetric flow rate ("\\small Q = Av" ) is constant throughout the pipe.

a)

• Applying volumetric flow rate to the input and output ends,

"\\qquad\\qquad\n\\begin{aligned}\n\\small Q=A_1v_1&=\\small A_2v_2\\\\\n\\small v_2&=\\small \\frac{A_1}{A_2}.v_1\\\\\n&=\\small \\frac{\\pi r_1^2}{\\pi r_2^2}.v_1\\\\\n&=\\small \\Big(\\frac{r_1}{r_2}\\Big)^2.v_1\n\\end{aligned}"

• Here "\\small r_1\\,\\&\\,v_1" refer to the input side and the out put side follows the notation accordingly.

b)

• For this part, you can use the Bernoulli's equation — "\\small P+\\frac{1}{2}\\rho v^2+\\rho g h=\\text{constant}" — for the input and out put conditions.
• Since the pipe is level throughout, any graduation is neglected, so that "\\small h = 0" .
• By now you have found the speed at the output ("\\small v_2" ) which is needed for this step.

"\\qquad\\qquad\n\\begin{aligned}\n\\small P_1+\\frac{1}{2}\\rho v_1^2 &=\\small P_2+\\frac{1}{2}\\rho v_2^2\\\\\n\\small P_2 &=\\small P_1+\\frac{1}{2}\\rho(v_1^2-v_2^2)\n\\end{aligned}"

• Now you can give it a try substituting the values accordingly and getting the answers.
• use the units correctly, when the lengths are input in meters, the speeds are obtained in meters per second.
• Let me know in comments if you find any difficulty.