00:01
The task is to calculate the friction loss for soybean oil being pumped through a constant diameter pipe into a tank based on the given data and the value of ws, which is the mechanical energy added by a pump.
00:15
So it will be equal to 200.
00:17
Then we are having here joules and then it is per kilogram.
00:21
And then the value of row, which is the density of soybean oil, is 919.
00:27
Then it will be kilogram and here it is per meter cube.
00:32
Now the value of g, which is the acceleration due to gravity, will be here 9 .81 and then it is meter per second square.
00:41
Then the value of z1 will be equal to 0 and here it is meter.
00:46
Then we can mention the value of z2 which is here equals to 3 meter and it is the elevation rise.
00:54
So let us mention the value of p1 and it will be here equals to 171 then it is multiplied with 10 raised to the power 3 and here it will be pascal now the value of outlet pressure will be here denoted as p2 and this is equal to 103 then it is multiplied with 10 raised to the power 3 and it will be here pascal so same diameter is given right so let's mention here same and then we are having diameter which means that there will be no change in velocity since the value of velocity will be here same...