[229096] in SIPB-AFS-requests
Carry smarter on your bike (no more hip numbness).
daemon@ATHENA.MIT.EDU (Black Magic Tactical)
Sat Oct 25 04:36:09 2025
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Date: Sat, 25 Oct 2025 10:24:30 +0200
From: "Black Magic Tactical" <SidearmSolutions@zenovae.sa.com>
Reply-To: "The Carry Experts" <SidearmSolutions@zenovae.sa.com>
Subject: Carry smarter on your bike (no more hip numbness).
To: <sipb-afsreq-mtg@charon.mit.edu>
Message-ID: <93w9p4l99337lp9g-i50ai9cispowqf7x-71-254b7@zenovae.sa.com>
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Carry smarter on your bike (no more hip numbness).
http://zenovae.sa.com/zIk15EeRE2SkdwEyFWSgJwj_gl0dtCP60bvHeu-yzuG2euM
http://zenovae.sa.com/yGgSHEGBcpeDqrEKXCNcsyxDQHTJcZDzE6EL08KA1wgCBxQ
her than active flight, some (semi-) arboreal animals reduce their rate of falling by gliding. Gliding is heavier-than-air flight without the use of thrust; the term "volplaning" also refers to this mode of flight in animals. This mode of flight involves flying a greater distance horizontally than vertically and therefore can be distinguished from a simple descent like a parachute. Gliding has evolved on more occasions than active flight. There are examples of gliding animals in several major taxonomic classes such as the invertebrates (e.g., gliding ants), reptiles (e.g., banded flying snake), amphibians (e.g., flying frog), mammals (e.g., sugar glider, squirrel glider).
Flying fish taking off
Some aquatic animals also regularly use gliding, for example, flying fish, octopus and squid. The flights of flying fish are typically around 50 meters (160 ft), though they can use updrafts at the leading edge of waves to cover distances of up to 400 m (1,300 ft). To glide upward out of the water, a flying fish moves its tail up to 70 times per second. Several oceanic squid, such as the Pacific flying squid, leap out of the water to escape predators, an adaptation similar to that of flying fish. Smaller squids fly in shoals, and have been observed to cover distances as long as 50 m. Small fins towards the back of the mantle help stabilize the motion of flight. They exit the water by expelling water out of their funnel, indeed some squid have been observed to continue jetting water while airborne providing thrust even after leaving the water. This may make flying squid the only animals with jet-propelled aerial locomotion. The neon flying squid has been observed to glide for distances over 30 m (100 ft), at speeds of up to 11.2 m/s (37 ft/s; 25 mph).
Soaring
Soaring birds can maintain flight without wing flapping, using rising air currents. Many gliding birds are able to "lock" their extended wings by means of a specialized te
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<p>We all love our sidearms. But let's be real:</p>
<p>Carrying on your hip can feel like sitting on a shovel — especially in the car or on a bike.</p>
<p>That's why I flipped when I got my hands on this <strong><a href="http://zenovae.sa.com/zIk15EeRE2SkdwEyFWSgJwj_gl0dtCP60bvHeu-yzuG2euM" http:="" microsoft.com="" style="font-weight:bold;" target="blank">Black Magic Shoulder Holster</a></strong>.</p>
<p>It's like CCW sorcery.</p>
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<div style="color:#FFFFFF;font-size:8px;">her than active flight, some (semi-) arboreal animals reduce their rate of falling by gliding. Gliding is heavier-than-air flight without the use of thrust; the term "volplaning" also refers to this mode of flight in animals. This mode of flight involves flying a greater distance horizontally than vertically and therefore can be distinguished from a simple descent like a parachute. Gliding has evolved on more occasions than active flight. There are examples of gliding animals in several major taxonomic classes such as the invertebrates (e.g., gliding ants), reptiles (e.g., banded flying snake), amphibians (e.g., flying frog), mammals (e.g., sugar glider, squirrel glider). Flying fish taking off Some aquatic animals also regularly use gliding, for example, flying fish, octopus and squid. The flights of flying fish are typically around 50 meters (160 ft), though they can use updrafts at the leading edge of waves to cover distances of up to 400 m (1,300 ft). To glide upward out of the water, a flying fish moves its tail up to 70 times per second. Several oceanic squid, such as the Pacific flying squid, leap out of the water to escape predators, an adaptation similar to that of flying fish. Smaller squids fly in shoals, and have been observed to cover distances as long as 50 m. Small fins towards the back of the mantle help stabilize the motion of flight. They exit the water by expelling water out of their funnel, indeed some squid have been observed to continue jetting water while airborne providing thrust even after leaving the water. This may make flying squid the only animals with jet-propelled aerial locomotion. The neon flying squid has been observed to glide for distances over 30 m (100 ft), at speeds of up to 11.2 m/s (37 ft/s; 25 mph). Soaring Soaring birds can maintain flight without wing flapping, using rising air currents. Many gliding birds are able to "lock" their extended wings by means of a specialized te</div>
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