and Also:
Airplanes, by law, are airspeed limited below 10,000 feet ASL (above sea level). Above that they can go full out—easily topping 450 mph. Understandably, the visibility and cloud requirements are higher too. If we’re above 10,000’ MSL we must have at least 5 mile visibility, stay 1000’ below, 1000’ above and at least 1 mile horizontally away from any cloud. These “High Minimums” give us more distance to see and avoid the fast movers.
end partial quotes from:
We're Not AloneSection II Spreading Your Wings, Chapter 9: AirspaceFrom The 2006 USHPA Magazine by Jeff Goin | Jackson Hole Example | Thousand Oaks Example |
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Our sweetly simple FAR 103 grants enormous
flexibility. It gives equally ambiguous restrictions—leaving a lot up to
us. The sharp edge of this freedom is how easy we can cause problems or
get “violated” by the FAA. While a violation is expensive, it is the problems
that need to be addressed.
The FAA isn’t out to “get” us—in
almost all cases, violations stem from complaints or accidents involving
the general public or law enforcement, not the FAA.
Some rules are straight forward—there's
just no excuse to violate them. Others open wide Pandora’s box of
interpretations but, one thing is clear, if we cause damage to a
non-participant, especially via colliding with an airliner—it will put
enormous pressure on the FAA to enact restrictions. This expose is
presented as an aid to help minimize that chance.
For brevity I'll dispense with altitude
boundary terminology such as "at or above” or “up to but not
including.” Give the boundaries several hundred feet to be sure.
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The
view from a 737 going into the northern Los Angeles area. This is a great
place to paramotor but know where you can fly.
FAA=Federal
Aviation Administration.
FAR=Federal
Aviation Regulation
5,1,2,3
refers to the most common cloud clearance and visibility: 500 feet
below, 1000 feet above and 2000 feet horizontally away from
the clouds with at least 3 miles visibility.
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Right of Way |
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When hang glider pilots were vying for a
slice of 1980’s sky, the FAA said, among other things, “OK, but
don’t get in the way of the existing aircraft.” That got codified as
shown at right.
The onus is entirely on us. And it’s very
ambiguous; do we need to avoid altitudes where aircraft fly? Do we need to
avoid flying anywhere near airports? It’s not defined—we must work it
out on our own. But if we do cause a collision hazard there is no legal
grounds to stand on—it’s going to be our fault. If an airplane
blunders through our local flying area, it’s still up to us to avoid
him.
The first step to avoidance is knowing where
airplanes will likely be. Secondly, we must know the airspace and its
requirements. It’s not that difficult: In
almost all the USA, you launch in G airspace and climb into the overlying
E airspace. That low layer of G airspace requires 1 mile visibility
and remaining clear of clouds. E airspace requires 3 miles visibility and
staying 500’ below, 1000’ above, and 2000’ to the side of any
clouds; I’ll refer to this common set of values as “5-1-2-3.”
Airplanes, by law, are airspeed limited below
10,000 feet ASL (above sea level). Above that they can go full
out—easily topping 450 mph. Understandably, the visibility and cloud
requirements are higher too. If we’re above 10,000’ MSL we must have
at least 5 mile visibility, stay 1000’ below, 1000’ above and at least
1 mile horizontally away from any cloud. These “High Minimums” give us
more distance to see and avoid the fast movers.
A collision would be disastrous enough,
having it happen while flying illegally would be devastating to ‘self
regulation’. Little tolerance will be granted to the individual or the
sport after such a travesty. We fly at the pleasure of a nervous public
who would just as soon ban us than to tolerate risk from our operations.
It doesn’t always seem fair, but that is the reality.
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FAR 103.13 (a)
Each person operating an ultralight vehicle shall maintain
vigilance so as to see and avoid aircraft and shall yield the right-of-way
to all aircraft.
FAR 103.13 (b)
No person may operate an ultralight vehicle in a manner
that creates a collision hazard with respect to any aircraft.
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Sectional Charts |
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Aviation charts are great tools. They show us
where it is legal to fly, what our minimums are, and where airplanes are
more likely to be.
Remember that we almost always launch in G
Airspace then climb into overlying E airspace. We can legally
fly in both all the way up to 18,000’ in most areas (Note: there is no
“F” airspace in the United States). We can dispense with discussion of
A, B, C, and D airspace – you can’t fly in these at all without
permission from the controlling agency and most always need an aircraft
radio to do so.
Inland pilots need this knowledge most
although, as our example will show, any ridge cutting through populated
areas will likely have its share of restricted airspace.
Charts can look daunting at first—colorful
and frequently meaningless with hieroglyphics splattered about. But we
only need only a fraction of this information. They also contain some
interesting topographical tidbits to benefit our planning. For example,
hills and mountains are depicted with elevations in 500’ increments
(sometimes 250’).
Our greatest concern to address with charts
is: “Can I launch from here? And if so, what do I need to know about
it.”
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After first determining a launch is within
your skill, the next question should be its legality.
One San Diego site, “Horse,” sometimes
sees gliders soaring above 11,000’. It happens to be immediately under PILLO
intersection—a major flyover point for inbound jets landing at the
airline airport, Lindberg. Those jets are whizzing by doing 300 mph at
10,000’.
Don’t assume that a collision with a jet
would only mince the pilot—200+ pounds of pilot, harness, motor and wing
could bring down an airliner.
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Remember, 5-1-2-3 means 500 feet below, 1000 feet above and 2000 feet horizontally from the clouds and 3 miles visibility. |
Example: Thousand Oaks |
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Almost every popular flying site sits in G
airspace with E airspace 1200’ overhead (sometimes 700’ as
you’ll see). You must always have at least a mile visibility and be able
to remain clear of clouds to launch. After climbing into the E airspace
above, you must have 3 miles visibility and stay 500’ below, 1000’
above and at least 2000’ to the side (5-1-2-3). Airplanes on instrument
flight plans fly through these clouds and need maneuvering room in case
they’re surprised by you. Visiting the “White Room,” especially
anywhere near airplane flight paths, is playing Russian Roulette with both
your life, others' lives, and our sport.
Lets look at some potential launch locations
and other areas on the Thousand Oaks excerpt which is just Northwest of
Los Angeles.
When looking at the chart (almost any chart,
for that matter), assume that the surface is in G with overlying E
airspace at 1200’ above ground level (AGL). Most G airspace (below
10,000’) requires 1 mile visibility and remaining clear of clouds. In
many populated areas or near airports, the overlying E airspace starts at
only 700’ instead 1200’. This is marked by magenta graduated shaded
areas (Spot 9 sits on one).
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Think
of this entire chart as covered with G airspace and E airspace above that.
Other types are present but that forms a solid base of understanding.
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Spot 1: This would be a
great site. It sits in G airspace with overlying E at only 700’ since it
is within the magenta shaded area. The lower floor of class E is fairly
common in heavily trafficked areas like this.
Can I Launch: Yes, Its in G airspace, 1 mile minimum
visibility and clear of clouds.
Climbout: Above 700’ AGL must have 5,1,2,3. Max
altitude is 18,000.
Soaring along the ridge to the southeast
would be legal until reaching the dashed circle line just northwest of spot
3.
Spot 2: Pretend it’s a
lake and you want to boat tow. This magenta dashed line defines the
“Surface Area of Class E Airspace” and is off limits to us.
Interestingly it has no top. When it was designed that wasn’t an issue
because the purpose was to require airplane pilots to have better
visibility – it dropped class E down to the surface. But latecomer FAR
103 used it to help separate us from other air traffic without having an
upper limit – it goes up indefinitely.
Spot 3: Blue dashes
outline the D airspace surrounding nearly all tower-controlled airports
including this one just above Oxnard. They’re off limits unless you get
permission from the control tower (possible with aircraft radios or by
telephone). Just below spot 3
is a “20” in a box which shows their D airspace tops out at 2000’
ASL.
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Spot 4: Just like spot 3 except with the top at 3000’ ASL. Again, permission is
required. Just below spot 4 is a restricted area R-2519. This piece of
military airspace limits flying even if the airport wasn’t there - its
controlling agency will be listed in the legend but, for pilots, a call to
Flight Service is the most practical. They will likely give you a phone
number to call. Call 800-WX-BRIEF, explain that you’re a hang glider
pilot and would like to call the controlling agency for R-2519.
Can I Launch: No unless you have permission from NAS
Point Mugu. It’s in Class D airspace where “5-1-2-3” applies
Climbout: Above 3000’ MSL, you get into E airspace
where “5-1-2-3” remains in effect. Above 10,000’ ASL “high requirements” apply (1000’ below any cloud, 1000’ above
and 1 mile to the side). Max altitude is 18,000’.
Spot 5: Still in D
airspace with a 2000’ top. That blue information tells how to contact
the Camarillo airport using an aircraft radio – interpreting it is
described on the chart’s legend.
Runways are labeled by the direction of
takeoff or landing. So runway 8 means an 80° heading (nearly east) for
takeoff or landing. This helps knowing what the air traffic will do when
nearing or using airports – and how to stay clear. Blue airports have
control towers and magenta airports do not but both use the same
symbology. All patterns to a runway are left unless otherwise noted with
an “RP” (Right Pattern). This one has “RP 8” which means that
traffic will normally fly right turns to final on runway 8; useful
information to help avoid where the airplanes are likely to be.
Can I Launch: No unless you have permission from the
Camarillo Tower. It’s in Class D where “5-1-2-3” applies.
Climbout: Above 2000’ MSL you get into E airspace.
“5-1-2-3” remains in effect Above 10,000’ ASL “high requirements” apply (1000’ below any cloud, 1000’ above
and 1 mile to the side). Max altitude is 18,000’.
Spot 6: This points to a
VOR – a navigation aid that airplanes frequently fly over. Although GPS
navigation is far more commonplace, these stations still attract traffic
that may be practicing procedures – they’re good places to avoid if
over a few hundred feet. It also happens to be inside the Class D airspace
around the airport just west of it and off limits without control tower
permission.
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Spot 7: The line being
pointed to has no meaning to us. Airplanes require an operating
“Transponder” that identifies them and their altitude to air traffic
controllers; we can fly without one. Although not about airspace per-se,
this ring engenders many questions.
Spot 8: All these eights
are on the magenta dashed line surrounding the “Surface Area of Class
E” airspace (just like spot 2) east of Camarillo airport. Unfortunately
it excludes some otherwise good launches. It is intended to accommodate
approaching airplanes into the three airports around Oxnard.
Spot 9: This is just
inside the shaded graduated magenta line (runs L to R) and would be a
great launch site.
Can I Launch? Yes, its in G airspace and requires 1
mile minimum visibility.
Climbout? Above 700’ AGL you must have 5-1-2-3.
Above 10,000’ ASL “high requirements” apply (1000’ below any cloud, 1000’ above
and 1 mile to the side). Max altitude is 18,000’.
Spot K: Getting closer to
Los Angeles here and under their class “B” airspace. In this area, the
segment outlined by the blue shaded line, goes from 7000’ to 10,000’
MSL. So it would be legal to launch and climb up to nearly 7000’. Be
mindful that airplanes also do this and they congregate at the edges of
and below these. A lot of airplane traffic plies the LA skies without
talking to a soul – they skirt this tightly controlled airspace and some
corridors get very busy.
Launch? Yes, its in G airspace and requires 1 mile
minimum visibility.
Climbout? Above 700’ AGL you must have 5-1-2-3.
Max altitude is 7000’ which is the floor of LA’s “B” airspace.
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Example: Jackson Hole, WY |
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| Getting away from the
congestion near Los Angeles, we find lots of desert and open areas;
perfect for our type of flying. But there’s still airliner traffic going
into the main airport for Jackson Hole and so knowledge with vigilance is
necessary when flying nearby. Here are some airspace considerations for
the labeled areas.
Spot 1: This launch in G
airspace would be perfect – it’s away from all the airport activity.
You only have to worry about gliders coming down from the airport near spot 2.
Can I Launch? Yes, it’s in G airspace and requires
1 mile minimum visibility.
Climbout? Above 1200’ AGL you must have 5-1-2-3.
Above 10,000’ ASL “high requirements” apply (1000’ below any cloud, 1000’ above
and 1 mile to the side). Max altitude is 18,000’.
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Click to see the chart that appeared in the original
magazine. Excerpts are used below to make up for not having a magazine
page to look at. |
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Spot 2: The airport just
to the North should cause some concern when launching from here. It’s
perfectly legal to do so, but in a northeast wind, the airplanes will be
making right patterns to land towards the northeast. This is indicated by
the “RP” under Driggs Reed airport info.
One of the more fun uses for these charts is
telling gross elevations. There won’t be a lot of detail but most
anyplace worth its rise will show up.
Can I Launch? Yes, it’s in G airspace and requires
1 mile minimum visibility.
Climbout? Above 700’ AGL you enter E airspace and
must have 5-1-2-3. Above 10,000’
ASL “high requirements”
apply (1000’ below any cloud, 1000’ above and 1 mile to the side). Max
altitude is 18,000’.
Spot 3: The blue line
pointed at by 3 represents an “Airway” that airplanes tend to fly
along anywhere above about 2000’ AGL. We have no restriction associated
with them but extra vigilance or avoidance would be in order.
Spot 4: The solid blue
line with dots on the inside denotes a wildlife area. Pilots are
“requested” to avoid flying in these areas below 2000’. It’s not
much of an issue for free flyers given our silent nature.
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Can I Launch? Yes, it’s in G airspace and requires
1 mile minimum visibility.
Climbout? Above 700’ AGL you must have 5-1-2-3. Above
10,000’ ASL “high requirements” apply (1000’ below any cloud, 1000’ above
and 1 mile to the side). Max altitude is 18,000’.
Spot 5: This is pointing
at the blue dashed line depicting the D airspace around Jackson Hole’s
airline airport. It tops out at 8900’ and being blue means there’s a
control tower.
Spot 6: Launching here in
the D airspace would require permission from the control tower.
Spot 7: The Magenta
shading pointed at here is where the floor of E airspace drops down from
1200’ to 700’. This accommodates airplanes that may be flying into
Jackson Hole – the idea is to lower the E which requires better
visibility. They don’t want folks flying around above 700’ who can
only see a mile.
Spot 8: A wildlife area
where pilots are “requested” to stay above 2000’ AGL.
Spot 9: The VOR navigation
aid that tends to congregate airplanes and is best avoided at higher
altitudes (above about 2000’ AGL).
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Spot J: Here is one of the
few areas in the country where there is no overlying E airspace. The sharp
edge of the blue shaded line marks the edge. That fact has almost no
significance on us except that we can get away with only a mile visibility
up to 10,000’ ASL.
Can I Launch? Yes, it’s in G airspace and requires
1 mile minimum visibility.
Climbout? You’ll be in G all the way up to 18,000
feet MSL. By regulation though, the visibility minimum goes up to 3 miles
climbing above 1200’ AGL and goes up to “high
requirements” above 10,000 feet MSL.
Spot K: This is just
inside the E airspace area.
Spot L: Just outside the E
airspace area.
Can I Launch? Yes, it’s in G airspace and requires
remaining clear of clouds 1 mile minimum visibility.
Climbout? You’ll stay in G airspace all the way
up. Above 1200’ AGL, although you still only need 1 mile visibility, the
cloud clearance goes up to what E requires: 500’ below, 1000 above and
2000 to the side. Above 10,000’
ASL “high requirements” apply (1000’ below any cloud, 1000’ above
and 1 mile to the side). Max altitude is 18,000’.
Help keep us welcome in the national airspace
system. This knowledge can help us be more aware of our surroundings and
honor the trust placed in us. The rules are flexible indeed and have
worked well for everybody concerned. But we must always be mindful that
“we’re not alone up there”.
end quote from:
http://footflyer.com/PPGBibleUpdates/Chapter09/not_alone/airspace_not_alone.htm
and
Airspace for Paramotor Pilots and Powered Paragliding | |
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