A nozzle with a radius of 0.21 cm is attached to a garden hose with a radius of 0.95 cm that is pointed straight up. The flow rate through the hose and nozzle is 0.65 L/s rn = 0.21 cm rh = 0.95 cm Q=0.65 L/s Calculate the maximum height to which water could be squirted with the hose if it emerges from the nozzle in meters. Calculate the maximum height (in centimeters) to which the water could be squirted with the hose if it emerges with the nozzle removed, assuming the same flow rate.

A nozzle with a radius of 0.21 cm is attached to a garden hose with a radius of 0.95 cm that is pointed straight up. The flow rate through the hose and nozzle is 0.65 L/s rn = 0.21 cm rh = 0.95 cm Q=0.65 L/s Calculate the maximum height to which water could be squirted with the hose if it emerges from the nozzle in meters. Calculate the maximum height (in centimeters) to which the water could be squirted with the hose if it emerges with the nozzle removed, assuming the same flow rate.

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A nozzle with a radius of 0.21 cm is attached
to a garden hose with a radius of 0.95 cm that
is pointed straight up. The flow rate through
the hose and nozzle is 0.65 L/s
rn = 0.21 cm
rh = 0.95 cm
Q=0.65 L/s
Calculate the maximum height to which water
could be squirted with the hose if it emerges
from the nozzle in meters.
Calculate the maximum height (in
centimeters) to which the water could be
squirted with the hose if it emerges with the
nozzle removed, assuming the same flow rate.

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