360922 Consider a horizontally oriented syringe containing water located at a height of \(1.25\;m\) above the ground. The diameter of the plunger is \(8\;mm\) and the diameter of the nozzle is \(2\;mm\). The plunger is pushed with a constant speed of \(0.25\;m/s\). Find the horizontal range of water stream on the ground. Take \(g = 10\;m/{s^2}\)

360923 The piston of a syringe pushes a liquid with a speed of \({1 {~cm} / {s}}\). The radii of syringe tube and needle are \({R=1 {~cm}}\) and \({r=0.5 {~mm}}\) respectively. The velocity of liquid coming out of the needle is

360924 A liquid is allowed into a tube of truncated cone shape. Identify the correct statement from the following.

360925 A piston of a syringe pushes a liquid with a speed of \(1\;cm/\sec \). The radii of the syringe tube and the needle are \(R = 1\;cm\) and \(r = 0.5\;mm\) respectively. The velocity of the liquid coming out of the needle is

360922 Consider a horizontally oriented syringe containing water located at a height of \(1.25\;m\) above the ground. The diameter of the plunger is \(8\;mm\) and the diameter of the nozzle is \(2\;mm\). The plunger is pushed with a constant speed of \(0.25\;m/s\). Find the horizontal range of water stream on the ground. Take \(g = 10\;m/{s^2}\)

360923 The piston of a syringe pushes a liquid with a speed of \({1 {~cm} / {s}}\). The radii of syringe tube and needle are \({R=1 {~cm}}\) and \({r=0.5 {~mm}}\) respectively. The velocity of liquid coming out of the needle is

360924 A liquid is allowed into a tube of truncated cone shape. Identify the correct statement from the following.

360925 A piston of a syringe pushes a liquid with a speed of \(1\;cm/\sec \). The radii of the syringe tube and the needle are \(R = 1\;cm\) and \(r = 0.5\;mm\) respectively. The velocity of the liquid coming out of the needle is

360922 Consider a horizontally oriented syringe containing water located at a height of \(1.25\;m\) above the ground. The diameter of the plunger is \(8\;mm\) and the diameter of the nozzle is \(2\;mm\). The plunger is pushed with a constant speed of \(0.25\;m/s\). Find the horizontal range of water stream on the ground. Take \(g = 10\;m/{s^2}\)

360923 The piston of a syringe pushes a liquid with a speed of \({1 {~cm} / {s}}\). The radii of syringe tube and needle are \({R=1 {~cm}}\) and \({r=0.5 {~mm}}\) respectively. The velocity of liquid coming out of the needle is

360924 A liquid is allowed into a tube of truncated cone shape. Identify the correct statement from the following.

360925 A piston of a syringe pushes a liquid with a speed of \(1\;cm/\sec \). The radii of the syringe tube and the needle are \(R = 1\;cm\) and \(r = 0.5\;mm\) respectively. The velocity of the liquid coming out of the needle is

360922 Consider a horizontally oriented syringe containing water located at a height of \(1.25\;m\) above the ground. The diameter of the plunger is \(8\;mm\) and the diameter of the nozzle is \(2\;mm\). The plunger is pushed with a constant speed of \(0.25\;m/s\). Find the horizontal range of water stream on the ground. Take \(g = 10\;m/{s^2}\)

360923 The piston of a syringe pushes a liquid with a speed of \({1 {~cm} / {s}}\). The radii of syringe tube and needle are \({R=1 {~cm}}\) and \({r=0.5 {~mm}}\) respectively. The velocity of liquid coming out of the needle is

360924 A liquid is allowed into a tube of truncated cone shape. Identify the correct statement from the following.

360925 A piston of a syringe pushes a liquid with a speed of \(1\;cm/\sec \). The radii of the syringe tube and the needle are \(R = 1\;cm\) and \(r = 0.5\;mm\) respectively. The velocity of the liquid coming out of the needle is