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Archive for category Science

Monthly Image: Organ Pipe Mud Dauber Wasp Nest

The side of our house seems to attract Organ Pipe Mud Dauber Wasps during nesting season.

One pair of wasps built this impressive structure behind the patio door, beside the bathroom window:

Organ Pipe Mud Dauber Wasp Nest - side view

Organ Pipe Mud Dauber Wasp Nest – side view

The female wasp built six tubes over the course of an August week, carrying blobs of mud the size of her head and abdomen from sources about 30 seconds away (1 minute round trip). Each blob produces half of one serration around the tube, with a seam running down the middle, and requires 20 seconds to smooth into place. We got tired just watching her!

Each tube has many compartments, each containing a wasp larva and a paralyzed spider, with a mud cap inside the end:

Organ Pipe Mud Dauber Wasp Nest - bottom view B

Organ Pipe Mud Dauber Wasp Nest – bottom view B

We watched the wasps attack, sting, and remove spiders of a specific size from the corners of our window frames.

The young wasps in the innermost tube may not make it out alive, because they must chew through at least one outer tube before flying away:

Organ Pipe Mud Dauber Wasp Nest - bottom view A

Organ Pipe Mud Dauber Wasp Nest – bottom view A

Perhaps layering the outer tubes around a central tube makes for a more compact and durable nest, with the possible sacrifice of offspring in the center.

The new wasps will likely emerge next spring.

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Monthly Science: Monarch Caterpillars!

After several years of seeing few-to-no Monarch butterflies, last year we managed to save a single Monarch egg, raise the caterpillar, and release it:

Monarch on Milkweed - left

Monarch on Milkweed – left

This year, we’ve seen more, if not many, Monarchs in flight. They’re not abundant, but perhaps there’s hope.

A Monarch evidently laid eggs in our milkweed patch, with at least two offspring surviving:

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We decided to let them seek their own destiny; may the odds be ever in their favor …

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Gulfstream V on Final to KPOU

This corner on Maloney Rd is almost exactly one mile from the end of Hudson Valley Regional Airport Runway 24:

Maloney to KPOU map

Maloney to KPOU map

So it’s not unusual to ride under a small plane on final approach. Having a Gulfstream V fly directly overhead, however, is a real attention-getter:

Gulfstream V on final - Maloney Rd - 2018-08-26

Gulfstream V on final – Maloney Rd – 2018-08-26

What’s not at all obvious from the picture is how big a GV looks when seen directly overhead through those trees just ahead on the corner where our paths crossed. There’s a 360 ft (above sea level) hill directly on the flight path, so it’s at maybe 600 ft ASL and 400-ish ft AGL.

Thrust-reversal thunder rolled over us 50 seconds later, as we rode up the rail trail access ramp. Figuring we’re 15 sound-seconds from the strip, the GV was 30 seconds from touchdown.

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M2 DIY Thermistor Rebuild: Autopsy

Not much to my surprise, my hack-job thermistor rebuild went bad:

M2 - thermistor - assembly 2

M2 – thermistor – assembly 2

Having nothing to lose, I heated the brass tube over a butane flame to wreck the epoxy, which blew out with a satisfactory bang and filled the Basement Laboratory with The Big Stink.

Much to my surprise, the active ingredient still worked:

M2 DIY thermistor corpse

M2 DIY thermistor corpse

The multimeter reported absolutely no intermittent dropouts for as long as I was willing to watch the trace while doing other things:

DIY Thermistor Autopsy - Resistance Trend

DIY Thermistor Autopsy – Resistance Trend

So it must be my crappy soldering technique.

A brace of real M2 thermistors will arrive shortly …

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Burnett Blvd at Rt 55: More Speed On Red

We’re waiting at the end of Burnett Blvd, with the signal red and the clock at T = -0.17 seconds (photo numbers in 1/60 second frames):

RedRunner-0194

RedRunner-0194

You can’t hear the car (barely visible) approaching on the far left, but we can.

T = 0.00 – We get a green light and the (more visible) car is accelerating hard:

RedRunner-0204

RedRunner-0204

T = 1.00 – The car reaches the crosswalk:

RedRunner-0264

RedRunner-0264

Note that the driver of the car to our right isn’t moving, either.

T = 2.03 – Car passes through intersection:

RedRunner-0326

RedRunner-0326

The view from above, showing the distance between those two positions is 100 feet:

Burnett at Rt 55 - Distance along Rt 55

Burnett at Rt 55 – Distance along Rt 55

Do the math: 100 ft / 1.03 s = 97 ft/s = 66 mph.

There’s a reason we don’t start moving instantly when a traffic signal turns green.

T = 3.17 – We start moving, as does the car to our right, with our signal still green:

RedRunner-0394

RedRunner-0394

T = 4.88 – Whoops, our signal turns yellow:

RedRunner-0497

RedRunner-0497

T = 9.28 – Our signal turns red:

RedRunner-0761

RedRunner-0761

The signal timing hasn’t changed over the years:

  • Green = 4.88 s
  • Yellow = 4.40 s

Elapsed time from green to red: 9.28 seconds. No problem if you’re a car, death if you’re a bike.

T = 10.42 – We’re pedaling hard in the intersection:

RedRunner-0829

RedRunner-0829

The white car to our far right started moving into the intersection about the time we did. If you’re going to say we shouldn’t run the light, you gotta deal with cars first, OK?

Note the car approaching from the right on the far side of Rt 55. That’s a 40 mph zone, the driver sees a green light, and we’re still in the intersection.

T = 12.50 – We’ve been moving for 9.33 s, which puts Mary directly in the path of the oncoming car:

RedRunner-0954

RedRunner-0954

T = 14.83 – The oncoming driver having spotted us and slowed down, we’re asymptotically approaching the right-hand lane of Rt 55, passing beyond the steel manhole cover:

RedRunner-1067

RedRunner-1067

If you plunk “burnett signal” into the search box at the upper right, you’ll find plenty of previous incidents along these lines.

Despite bringing this hazard to their attention many times (“We appreciate and share your interest in making our highway systems safe and functional for all users.“), NYS DOT obviously doesn’t care.

If any of their employees commuted to their office building (which overlooks this very intersection), perhaps they would care, but they don’t: we have yet to see a bicycle in the DOT’s token bike rack.

DOT says they’re in favor of Complete Streets, but, seven years on, it’s just another day on the only route between Arlington and the Overocker Trailhead of the Dutchess County Rail Trail.

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Park Spoke Tension Meter vs. 20 inch Wheel Spokes

Obviously, the good folks at Park Tool never anticipated a three-cross spoke pattern on a 20 inch wheel:

Park Tool Spoke Tension Meter vs 406 wheel

Park Tool Spoke Tension Meter vs 406 wheel

It’s my trusty Park Tool TM-1 Spoke Tension Meter, unchanged since shortly after the turn of the millennium.

For future reference, the rebuilt wheel spoke tensions came out around 25, slightly lower than the 27-ish I measured on Mary’s bike; it didn’t occur to me to measure the tension until after I’d relaxed the spokes. I’ll ride it for a while before doing any tweakage.

The spoke pattern is pretty close to four-cross, due to the large-flange Phil Wood hubs:

Tour Easy Front Spoke Pattern

Tour Easy Front Spoke Pattern

Which makes for a hella-strong wheel, particularly seeing as how it’s very lightly loaded. The Tour Easy we got for our lass came with a radially spoked rim around a Phil hub.

I transferred the hub and laced spokes intact to the new rim by the simple expedient of duct-taping the spokes into platters, removing the nipples, stacking the rims, sliding the spokes across into their new homes, reinstalling the nipples, then tightening as usual.

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Monthly Science: Cheese Slicer Epoxy Coating vs. Water

Ten months ago, I cleaned the corrosion off our favorite cheese slicer:

Cheese slicer - aluminum corrosion

Cheese slicer – aluminum corrosion

After cleaning, I coated it with XTC-3D epoxy:

Cheese Slicer - epoxy coat - detail

Cheese Slicer – epoxy coat – detail

We’ve been using it daily ever since and it spends most of its life drip-drying in the dish drainer. I added a third opening to the cheerful orange measuring spoon holder just for the slicer.

A few weeks ago I noticed corrosion once again growing on the handle:

Cheese Slicer - epoxy coat - corrosion - detail

Cheese Slicer – epoxy coat – corrosion – detail

I think the rot comes from water diffusing through the epoxy, rather than gross leaks through damage or pinholes. The tip of the handle has the most corrosion, probably due to the water drop hanging there, even though it also has the thickest epoxy coating: it cured with the handle pointing downward.

Verily, rust never sleeps …

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