The Super Soaker XP30 is a marvel of hydraulic dispersion weaponry. By pumping on the handle, you charge the chamber to high pressure. The pressure is maintained until you pull the trigger at which point the water (? = 1000 kg/m3) is released at high velocity. You have charged your pressure chamber to an absolute pressure of P1 = 697500 Pascals, much higher than today's outside air pressure of 101300 Pascals. The pressure chamber is location at a height of y1 = 0.103 meters above the exit point. The exit point has a small opening with radius r = 0.0033 meters. Determine all the following: The velocity at which the water exits the Super Soaker: v2 = m/s The mass flow rate through the exit: kg/sec The volume flow rate through the exit: m3/sec NOTE: You may treat the water chamber as a "tank" and approximate the water velocity there to be zero.
The Super Soaker XP30 is a marvel of hydraulic dispersion weaponry. By pumping on the handle, you charge the chamber to high pressure. The pressure is maintained until you pull the trigger at which point the water (? = 1000 kg/m3) is released at high velocity.
You have charged your pressure chamber to an absolute pressure of P1 = 697500 Pascals, much higher than today's outside air pressure of 101300 Pascals. The pressure chamber is location at a height of y1 = 0.103 meters above the exit point. The exit point has a small opening with radius r = 0.0033 meters.
Determine all the following:
The velocity at which the water exits the Super Soaker: v2 = m/s
The mass flow rate through the exit: kg/sec
The volume flow rate through the exit: m3/sec
NOTE: You may treat the water chamber as a "tank" and approximate the water velocity there to be zero.
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Can You please check number 01? it is not 84.56
can you redo number 1?? v2??