Activity 3: Water Tower Water Tower Information: Use technique from the above activites. A 10 meter tall tank open to the air is filled with a fluid with a density of 1200 kg/m3. It is located with its bottom 10 meters off the ground. When a hole is open at the bottom, fluid sprays out with an initial horizontal velocity. Determine how far (initially) the fluid sprays horizontally before it touches the ground. Find an experimental value for this experiment using the "Water Tower" tab and determine an experimental error. Show all your work below. m. Calculated horizontal page n. Experimental horizontal comes o. Experimental error for the page Using the three experiments above as models, write out your own question to solve for below. You do not need to solve it, but it should be solvable.Name Fluid Mechanics Laboratory http://phet.colorado.edu/en/simulation/fluid-pressure-and-flow Activity #1: Pressure Tab Pressure Tab Information: Move the gauge to the water to find the pressure at different heights. Change the density of the fluid by adjusting the fluid density. Keep Gravity the same. Slide value over to open up the water from the faucet. Determine the absolute pressure two meters underneath a 1200 kg/m' density fluid under normal earth gravity and atmosphere. Use atmospheric pressure of 101 kPa. Show your work below, then use the simulation (under the "Pressure" tab) to get an experimental value. Calculate experimental error. Show all work below. a. Calculated Pressure (Theoretical) b. Simulated Pressure (Experimental C. Experimental Error Activity #2: Flow tab Flow Tab Information: Move speed and pressure gauge to get the readings. A fluid of density 1200 kg/m' flows out through a ? meter diameter pipe without friction at a rate of 3000 L/s. Find the velocity of the fluid as it flows out of the pipe, and the velocity of the fluid if the pipe constricts to a diameter of 1 meter. Then calculate the change in pressure (in the middle of the pipe) between the 2 meter and 1 meter diameter. Using the simulation (under the "Flow" tab} determine experimental values for each of these velocities/change in pressures and calculate experimental error. Show all your work here. d. Calculated initial velocity e. Experimental initial velocity f. Experimental Enter g. Calculated final velocity h. Experimental final week i. Experimental Ster j. Calculated change in pressthe k. Experimental change in pressure 1. Experimental Get