AE315 Lsn33

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Transcript AE315 Lsn33 

Aero Engineering 315
Lesson 33
GR3 Review
General strategy
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Prior to class
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Review reading for lessons 23 – 32
Work / review problems #26 – 42
Review handouts (turbojet performance summary
and changes to thrust & power curves)
Review slides and other handouts—especially
the performance summary handout
Know your memory equations (mostly GR2 and q)
Be familiar with applicable supplemental data info
In class
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BRING calculator, straight edge, pencils
Performance Summary
Best Case
Relation between
Induced and
Parasite Drag for
best case
Graphical relation for
best case
Max Climb Angle
CDo = kCL2
-
Max Climb Rate
No set relation
-
Breguet (5.28) or
Avg Value (5.27)
Max Jet
Powered Range
CDo = 3kCL2
-
Breguet (5.26) or
Avg Value (5.24)
Max Jet
Powered
Endurance
CDo = kCL2
- Minimum from TR curve
- Tangent point on a line
from origin to PR curve
R = h (L/D)
Best Glide
Range (angle)
CDo = kCL2
- Minimum from TR curve
- Tangent point on a line
from origin to PR curve
VD PR
R.O.D. 

W W
Best Glide
Endurance (min
sink)
3CDo = kCL2
- Minimum from the PR curve
Relationship
T D
)
W
V (T  D) Px
R.O.C. 

W
W
  arcsin(
Climbing
Cruise
Glides
Minimum from TR curve
- Tangent point on a line
from origin to PR curve
Draw a line parallel to PA
curve, and move it down till
it is tangent to PR curve
Tangent point on a line
from origin to TR curve
Example 5.2
An aircraft with CDo = 0.020 and k = 0.12 is
flying at h = 30,000 ft and M = 0.8. If the
aircraft has a wing area of 375 ft2 and it
weighs 25,000 lbs, what is its drag
coefficient and how much drag is it
generating? If the aircraft is in steady,
level, unaccelerated flight (SLUF), how
much thrust is its engine producing? If its
CLmax = 1.8, what is its stall speed at that
altitude?
Example 5.4
A sailplane’s drag polar is CD = 0.01
+ 0.02 CL2. It has a mass of 500 kg
and a wing area of 20 m2. What is its
maximum glide ratio and minimum
sink rate at sea level, and at what
speeds are these achieved?
Example 5.6
A turbojet-powered trainer aircraft weighs
5,000 lbs and is flying at h = 25,000 ft with
1,000 lb of fuel on board. Its drag polar is
CD = 0.018 + 0.095 CL2, its wing area is
180 ft2, and the TSFC of its engines is
1.0/hr at sea level. What is its maximum
range and endurance to tanks dry at this
altitude, and at what speed should the pilot
initially fly to achieve each?
Example 5.8
The non-afterburning turbojet engines of a
Cessna T-37 jet trainer produce
approximately 1700 lb of installed thrust for
takeoff at sea level, and its takeoff weight is
6575 lb. Its CLmax=1.6 for takeoff and its
drag polar in its takeoff configuration is CDo
= 0.03 + 0.057 CL2. Its reference planform
area is 184 ft2. Normal takeoff procedure
requires the pilot to rotate the aircraft to
the takeoff attitude just prior to reaching
takeoff velocity, so for the majority of the
takeoff roll the aircraft’s CL = 0.8. What will
be the aircraft’s takeoff distance at sea level
with no wind?