Determine the absolute pressure two meters3underneath a 1200 kg/m³ density fluid undernormal earth gravity and atmosphere. Useatmospheric pressure of 101 kPa. Show your workbelow, then use the simulation (under the"Pressure" tab) to get an experimentalCalculate experimental error.value.a. Calculated Pressure (Theoretical)b. Simulated Pressure (Experimental)c. Experimental ErrorA fluid of density 1200 kg/m³ flows out through a2 meter diameter pipe without friction at a rate of3000 L/s. Find the velocity of the fluid as it flowsout of the pipe, and the velocity of the fluid if thepipe constricts to a diameter of 1 meter. Thencalculate the change in pressure (in the middle ofthe pipe) between the 2 meter and 1 meterdiameter. Using the simulation (under the "Flow"tab) determine experimental values for each ofthese velocities/change in pressures and calculateexperimental error. Show your work.a. Calculated initial velocityb. Experimental initial velocityc. Experimental Errord. Calculated final velocitye. Experimental final velocityf. Experimental Errorg. Calculated change in pressure

Here pressure underneath fluid is given by ρgh Here ρ is density of fluid that is= 1200 kg/m3 Here…

a. Calculated initial velocity b. Experimental c. Experimental d. Calculated final velocity initial velocity Error e. Experimental final velocity f. Experimental Error g. Calculated change in pressure

a. Calculated initial velocity b. Experimental c. Experimental d. Calculated final velocity initial velocity Error e. Experimental final velocity f. Experimental Error g. Calculated change in pressure

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Question

Determine the absolute pressure two meters
3
underneath a 1200 kg/m³ 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
Calculate experimental error.
value.
a. Calculated Pressure (Theoretical)
b. Simulated Pressure (Experimental)
c. Experimental Error
A fluid of density 1200 kg/m³ flows out through a
2 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 your work.
a. Calculated initial velocity
b. Experimental initial velocity
c. Experimental Error
d. Calculated final velocity
e. Experimental final velocity
f. Experimental Error
g. Calculated change in pressure

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