Engineering Fundamentals: An Introduction to Engineering, 4th ed.c

(Steven Felgate) #1

454 Chapter 14 Electronic Spreadsheets


14.9. Using Excel, create a table that shows the relationship
between the units of pressure in Pa and psi in the range
of 10 kPa to 100 kPa. Use increments of 5 kPa.
14.10. Using Excel, create a table that shows the relationship
between the units of power in watts and horsepower in
the range of 100 W to 10,000 W. Use smaller incre-
ments of 100 W up to 1000 W, and then use incre-
ments of 1000 W all the way up to 10,000 W.
14.11. As we explained in Chapter 7, the air resistance to the
motion of a vehicle is something important that engi-
neers investigate. As you may also know, the drag force
acting on a car is determined experimentally by placing
the car in a wind tunnel. The air speed inside the tunnel
is changed, and the drag force acting on the car is mea-
sured. For a given car, the experimental data is generally
represented by a single coefficient that is called thedrag
coefficient. It is defined by the following relationship:

where


Cddrag coefficient (unitless)


Fdmeasured drag force (N or lb)


rair density (kg /m
3
or slugs /ft
3
)

Vair speed inside the wind tunnel ( m/s or ft /s)


Afrontal area of the car ( m
2
or ft
2
)

Cd


Fd


1


2


rV
2
A

The frontal areaArepresents the frontal projection
of the car’s area and could be approximated simply
by multiplying 0.85 times the width and the height
of a rectangle that outlines the front of a car. This is
the area that you see when you view the car from a
direction normal to the front grills. The 0.85 factor
is used to adjust for rounded corners, open space
below the bumper, and so on. To give you some
idea, typical drag coefficient values for sports cars
are between 0.27 to 0.38, and for sedans are
between 0.34 to 0.5.
The power requirement to overcome air resistance
is computed by

where


Ppower (watts or ft#lb/s)


1 horsepower (hp) 550 ft#lb/s


and


1 horsepower (hp) 746 W


The purpose of this exercise is to see how the
power requirement changes with the car speed and
the air temperature. Determine the power require-
ment to overcome air resistance for a car that has a
listed drag coefficient of 0.4 and width of 74.4 in.
and height of 57.4 in. Vary the air speed in the range

PFdV


Problem 14.11


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