Unit Conversion: Solving for Speed of Water Flow

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Water flow speed can be calculated using the continuity equation, A1V1 = A2V2, where A represents area and V represents velocity. It's important to ensure that units are consistent across the equation, but when dealing with ratios, the specific units used can vary as long as they match on both sides. In this case, converting centimeters to meters is not necessary if the same unit is used consistently. For another problem involving pressure on airplane wings, the algebra and unit consistency should be verified to ensure correct calculations. Understanding unit conversions and maintaining consistency is crucial for accurate results in fluid dynamics and pressure calculations.
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Homework Statement



water flows into a tube with a diameter of 6.35 cm at 0.012 meters cubed per sec.
it exits the nozzle with a diameter of 2.2cm at what speed?

Homework Equations



a = pi r squared

A1V1 = A2V2

The Attempt at a Solution



My question is should i convert the cm to meters?
how do you know when to do unit conversions?
 
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smray7 said:

Homework Statement



water flows into a tube with a diameter of 6.35 cm at 0.012 meters cubed per sec.
it exits the nozzle with a diameter of 2.2cm at what speed?

Homework Equations



a = pi r squared

A1V1 = A2V2

The Attempt at a Solution



My question is should i convert the cm to meters?
how do you know when to do unit conversions?

In this case it will not matter. In general, an equation is only correct if the units are the same on both sides of the equality sign.

If you use area A1 in cm2 and velocity in m/s, the left hand side will have units of cm2 m/s. This will be equivalent to the right hand side if you also use cm2 for A2.

Another way to think about it is if you rearrange the continuity equation you get:

\frac{A_1}{A_2} = \frac{V_2}{V_1}

i.e. the ratio of outlet velocity to inlet velocity is equal to the ratio of inlet area to outlet area. Since we are talking about a ratio of areas, it really does not matter what the units are, as long as they are the same.
 
ok thanks, that's clears things a little. on another problem i have to determine the pressure on wing two.

airplane mass: 1.60 x 10^4
wing one area : 40m^2
wing two area : 40m^2
pressure on wing one : 7.00 x 10^4
pressure on wing 2: ?

F= PA
mg = P1A1 + P2A2
mg = A(P1 + P2)

mg -P1
_______ = P2
A


so anyhow i have some number and the unit as:

(#kg)(#m/s) - (#Pa)
_______________
#meters squared

i know pressure is measured in Pascals, but when all is said and done, none of the units cancel. does that matter?
 
Recheck your algebra and your unit for g... the units work out fine.

You will get X pascals = P2
 

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