Author Archives: cometary

Make Hey! While the Moon Shines

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We have a full moon this weekend.  Stargazers will be complaining about the huge glowing face polluting the sky with light, but why not get out there and study our partner planet, good old Luna?  Elsewhere in this blog, I’m going on and on about my trip through the Grand Canyon.  Today I was searching for information on the rock layers, to improve the titles on some of my pictures.  And what did I find?  An astronomy resource!

Here it is: a great essay by Professor Charles Cowley of the University of Michigan, who uses the stratigraphy of the Grand Canyon to explain the layers and rock formations on the moon.  Go here, read this!    Thanks, Professor Cowley!

Lunar crater view taken by Clementine orbiter.   (Courtesy of NASA)

Lunar crater view taken by Clementine orbiter. (Courtesy of NASA)

 

Day Zero: Get Thee To Flagstaff

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There is no simple way to orchestrate the travel here.  Yes, planes fly to Flagstaff, not the same airlines as fly to the big airports but their small-scale partners.  There’s a shuttle bus from Phoenix, and if you were facing a long layover the van could even be faster.

A view of the Grand Canyon we did not see on our flights (courtesy of Google Earth)

But we arrive in Phoenix with plane tickets in hand and actually welcome a half-hour flight delay, because it allows us a chance to buy lunch.  I even have time for a stroll through the overpriced-souvenir shop, where I hand over $2 for a pair of elastic bands someone in the shop has put out to support a fundraiser for improving water supplies in Haiti.  Seems appropriate. And the chance to put up our feet for a half-hour is welcome, as we’re already tired.  We actually began yesterday, on Day “-1”, with a five-hour drive to rendezvous with Clark’s friend, who lives near Reno, so we could all travel together the whole way.  Our Day Zero expedition consisted of a drive from the pine forests of Plumas County to the desert flats of Reno’s outskirts, a freeway jaunt to the airport (chauffered by another friend), a big plane to Phoenix, a little plane to Flagstaff, then a search for the airport shuttle.  We will have a powerful case of deja vu on Day Fourteen.   You’ll see.

Flagstaff’s airport is a fabulous, small airport.  My favorite kind.  One baggage claim zone.  No trouble meeting a shuttle bus right outside.  As it happens, the other folks sharing the van are another couple going on our trip.  And they have obtained an intelligence report from the rafting company, OARS, that we five will be the only “guests” staying on the raft trip for the full fourteen days.   The rest of the group will leave halfway (and hike out), to be replaced by a new batch of folks for the second week.  So we will actually get to spend a full fifteen days with Todd and Eliza.  Oh, yeah, and until such time as the members of our trip group authorize me to use their names, I will be using fake names, just in case I goof up and say something upsetting or someone turns out to be in Witness Protection.  I won’t do the same for the crew, since I want to actually give them the props they deserve.  In fact, I’d hope this whole piece could be considered a humungous letter of reference for each and every person on the crew.  I’d initially given myself permission to use my own and my husband’s names, but he protested, so here goes.  He is herewith dubbed “Clark”.  And what to call Childhood Friend?  How about Lana?  And surely that makes me “Lois”.  The only funny thing about this, is that I actually have a friend called Lois–so, hey, Lois, you can tell people this is you.  (Fair warning, though, I’m not the heroine of this story!)

The key element of Day Zero is the evening briefing from the Trip Leader.  We gather in one of the Radisson Hotel’s conference rooms.   (The Midway guests also will have a briefing, but not by the Trip Leader , as she will be a mile downhill at the time.)  So we meet our first authentic River Guide.  This is Billie Prosser, who’s been whitewater rafting since she was a teenager, over fifteen years now, much of that time in the Grand Canyon.  These days, she chooses to do only a few of these Grand Canyon trips a year, giving herself the chance to work on other rivers and also to have time for a private trip, as time permits, to enjoy the Canyon without having to take care of people like us.

At the meeting, we also get our first glimpse of our fellow travelers all together.  We are heavily loaded with Californians and Canadians.   There are three women from Canada—their menfolk didn’t want to come.  There’s two father-son duos: one a dad and his athletic teenager, the other a Bechtel project technician taking a voluntary layoff to make the trip with his dad, a (putatively) retired actor and writer.  The Fab Five (Todd & Eliza and the three of us–Lois, Clark, and Lana) are all from California.   The actor, who takes care during the meeting to firmly establish that he’s the most-senior member of the troupe, has also brought along a childhood friend—a woman he hadn’t seen since high school.  While he keeps us entertained, I get the vague feeling he sort of expects someone to recognize him.  Then there’s another triad…a husband and wife and one of their friends.  Is that sixteen?

We get a quick summary of what to expect in the morning.  The crucial item is to have our gear packed and in the lobby by quarter to seven and be ready to leave by seven.  There’s a little last-minute advice on what to be sure to bring.  In case something’s been forgotten, there’s a WalMart in walking distance.  We’re advised to bring lots and lots of moisturizer.  I ask for a definition of “lots”, which it seems is a 16 oz bottle per person per week.  Oh, my goodness, I didn’t bring that much, so we have a trip to WalMart in the plans already.  We’re issued our “drybags”, each labeled with our own personal real names.  (Amazingly, they don’t know to use the fake names I will make up in the future for this blog.)  And Billie gives us a five-minute seminar on how to seal the drybags.  This is important, as all of our clothing and personal items go in this bag, which will then be tied onto a raft and frequently doused with water.  We’re each also issued a small drybag.  The big bag is inaccessible except in camp.  The day bag serves to keep dry what we need to keep dry but have access to during the day.  And we’re allowed to bring whatever we like in our daypacks as well, provided we understand that these will get drenched in larger rapids or if it rains.  The drybags don’t have our personal names on them.  Instead, they each have an identifying name written in Sharpie,  to individualize them.  We just each have to remember our bag’s name.  Mine is “Turpentine Broom”.  Lana’s is “Grease Bush”.  And Clark selects the distinctly memorable “#73”.  Mine is the best.  Here is all about Turpentine Broom  and Grease Bush.  I expect we’ll encounter these plants on our journey.  In the meantime, the names help, as the bags come in only a few colors.

I’m relieved to hear there will be a bag for boots, as this will make room in my kit for all that moisturizer.  Others are relieved to hear that their beer and wine orders have been filled.  Some are anxious to double-check on that after the meeting.  Billie has the checklist.  Evidently, this is a common anxiety.

Then we are off to WalMart.  Yes, our first act upon crossing the moment into our trip environment is to walk down a suburban city street, past a dark and quiet Home Depot, an active supermarket, and a Bank of America with lights glowing invitingly above its ATM, to shop in the megabehemoth of a store that was launched just a few miles from Clark and Lana’s home town.   But oh, they do indeed have It All.  More sunblock.  I must have more sunblock.  Moisturizer, per Billie’s recommendations.  Handy dry facewash cloths to get all that sunblock off.  And a tripod.  What was I thinking, leaving home without a tripod?  And a little mini flex-tripod for Clark.  Sweet.  Now all we have to do is haul this all back to the hotel and get everything crammed into our bags.

And, well, the bag-cramming takes a little while.  Maybe more than a little while.   Part of it is deciding which things are OK in the backpack (maybe in a Ziploc bag, maybe not), which need to go in the daybag, and which can be done without and stuffed in the main drybag.  I have the extra variant that I really have 2 daypacks. One is a one-shoulder sling pack that keeps my cameras and other hiking essentials from bearing down on my healing shoulder and when not in use tucks into the main pocket of my large daypack.  The main daypack takes my raingear, a dry set of fleece sealed in ziplocs, my tripod, and other handy items.  It’s big, it’s bulky, I will make Clark carry it as much as possible.  But it all fits.  And while I fancy myself adept at this sort of thing, it is Clark who is already proving to be better at sealing the big drybag.  He says it is just that he can squish it down better, being a bit heavier, but I think there is more to it than that.  I will keep insisting on doing my bag myself for about four more days.  Then I will give up and let him do it for me.

One last shower and a thorough hair washing.  It will be 2 weeks without a shampooing, at least for me.  I do not want to look at the setting on the alarm clock.  It is just too awful to contemplate.

 

On recent weather in Oklahoma

Though it seems I just got started on the Grand Canyon project, this day is one to set aside for thinking about tornadoes.   This afternoon, I listened on the radio to an interview with a recent immigrant from California to Moore, Oklahoma.  With tears in her voice, she spoke of how “scary, really scary” she found frequent tornadoes in her adopted home state.   When I interned at Argonne National Lab many many many years ago, a local described the tornado that had passed through the fringe of the lab a few years previously.  He said the noise of the approaching tornado made him think of a T. Rex roaring through the forest.  This was before the Jurassic Park movies had transformed T. Rex into a helpful bad-guy removing plot device.   Classic tornado image courtesy of NOAA

On the positive side, just down the road from Moore, college students at the University of Oklahoma are designing ways to use the DOD money invested in drone technology to create drones capable of collecting essential data which will vastly improve the ability to forecast tornadoes and predict their motions more accurately.  Check out their work at the Government Technology e-mag page.   To understand how important it is to gather data to analyze, consider this NOAA consolidation of data over time which suggests when and where tornadoes are most likely…you can check in on these data on NOAA’s Storm Prediction Center site, daily.

StormPredictionCenterMap_NOAA

 

Secrets and Mysteries of Rafting the Grand Canyon

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So, for the next month and more, this blog, or at least most of its available posting space, has been claimed by a fan of the Grand Canyon.  Yes, a fan of a really big hole in the ground.  It’s not as big as Valles Marinaris, but there is still a river at the bottom of the Grand Canyon, which greatly facilitates travel by river raft.  The goal is to take you along on a fourteen-day expedition, from Kaibab Sandstone to Vishnu Schist, through rapids, slot canyons, waterfalls, and thunderstorms, and along the way reveal a few of the deep dark secrets of these trips so few of us take.  We’ll cover over 180 miles on the river plus many miles afoot on canyon trailways.  Why use up a month to take you on a two-week trip?  Because that’s what it feels like.  You forget what day it is, how long you’ve been gone, how much time is left.  If you don’t keep a journal, you’re lost.

I kept a journal.

I also took about 3,000 photographs and an hour of video.

Yes, there will be a fair amount of “what we did”, but I also want to share the background information the guides (and other travelers) shared with us, the additional tidbits I’ve gleaned from research (the addiction of the Ph.D.), and perhaps even paint the picture well enough that if you can’t go on this trip you can claim you did and provide your friends with a verisimilitudinous description.  Just pick one of the falsified names in the diary segments & say “yeah, that’s me”.   Also, if you’re a well-heeled adventure traveler planning your own expedition, I’d hope you’ll come away with enough information to know where you should not take short-cuts—and with some clues about how to find experienced, capable guides to get you through safely.

In the meantime,  I don’t want to wear out your eyeballs with more than a few photos and a thousand words of gushing per post.  There will be directions to see more photos, but, I promise, this won’t be a session of “Watch my Vacation Slideshow”.

Time for the first installment of Secrets of Grand Canyon River Rafting.

Deep, dark secret #1.  Not everyone wants to go on this trip.  Three husbands who could have joined their wives refused the chance to walk away from work, television, and electronic connectedness for a week.  A young backbacker—who had completed the climb of Mount Whitney with his mother just a few months previously—turned down a free ticket and sent his retirement-age Mom on her own.  She said he didn’t like the idea of not being in control on the trip.  Another traveller’s wife sent him off with a (female) friend he’d recently reconnected with after a thirty-year hiatus, because the wife just can’t stand camping.  His son, a golf enthusiast, only agreed to chaperone them if they took the shorter trip, to be sure he’d be home in time to watch the Master’s.  Me? No, actually, I didn’t want to go on this trip.  The only person who couldn’t tell was my husband, he was so excited about going.  Why would this nature/science/ancient-peoples-loving photographer want to sit this out?

First of all, it’s frightfully expensive—if you want to travel the Canyon and not spend a fortune, you need to be able to work there.   I am not the correct age or physical type to start a new career as a river guide.  Nor do I have the right background or training to get hired by (or even volunteer for) the Park Service or any of the scientific research teams with feet on the water down there.  So when my husband Clark declared that it had “always” been his wish to make this trip and that he had, after all, a big landmark birthday coming up, I made him pay for it out of his IRA.  That was the only place we had enough money set by.

Second, Clark got the idea from a friend of his, a childhood friend who’s facing the same landmark birthday this year.  When these two get together, they tend to devote a significant amount of our time to recalling those good-old-days.  Days I did not share.  Oh, great, my jealous heart predicted:  two weeks of traipsing along behind while they play “remember when.”  Well,  I did end up trailing along behind, but not quite the way predicted.  You’ll see.

And the third and most sensible reason:  I broke my shoulder in January and my orthopedist’s solid opinion about my going river-rafting in April was: “I wouldn’t recommend doing that.”   The bone knitted on schedule, but shoulders are complicated messes of tendons and muscles that don’t take kindly to the whole process.  I was told it would be a year or more before I’d be back from this injury.  My physical therapist did what he could to get some of my range-of-motion restored and added a couple of exercises to build back a little strength, but I went off with one arm fully-qualified to hang on tight and one that complained bitterly about any extension beyond a basic stretch while it simply refused to raise my hand beyond about 80 degrees.   One upside was that Clark got to haul all my gearbags, because I just couldn’t handle them.

The other upside is that I would not want to have missed out on this trip.  Even though we couldn’t afford it, it was worth it.  Does that make any sense at all?  Well, it will.

So, all right already, let’s go.  For a teasing sneak-peek, here is a picture from Day 5.  Oh, aye, it’s the Grand Canyon.

Day One

Secrets & Mysteries

For the rest of May and well into June, I’ll be reporting on a recent time-travel journey.  In real time, the trip took just over 300 hours.  We began with a quick jump of about 1 million years, but worked our way all the way back to the Pre-Cambrian, over 600 million years ago.  There were were twenty-one in our party at the outset, twenty when I left to return to the chaos of the latest millenium.  And seven went on to explore further, and I’ll always wonder what I missed. For now, that need will have to be satisfied by sharing the discoveries of that two-week expedition.

I may have to make some side trips into the future, as I’ve committed to attend BayCon 2013 (aka Triskaedekaphobicon).  Trading trilobite searches for autograph hunts.

 

 

Cooking With Kuiper: The Instruction Set

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(update:  2/18/2015)

Time to build a comet!

If you have adult or older-student assistants, ask them to take charge of crowd control; that is, keeping the audience from crowding around the demonstration. Everyone will get to see the comet! Spare a minute for a brief lecture on the hazards of dry ice. You may have participants who know that dry ice can “burn”, but not all will understand that idea at first. However, no one wants to get hurt. Mention that you will be protecting your hands with gloves and your eyes with safety goggles (or safety-rated eyeglasses).

Supplies for Comet Making (Just Add a Cooler-Full of Dry Ice)

Supplies for Comet Making (Keep your cooler-full of dry ice in a safe spot.)

Participation opportunities include: helping move the materials and equipment to a mess-tolerant location, measuring ingredients, and smashing dry ice. The trauma of allotting slots to help out is one important reason to try the exercise at least twice. (Crowd-control tip: sometimes it helps to announce “I’ll only choose helpers from those who do not raise hands and call out to volunteer.”)  As a first step, take one of your plastic bags and cut it open along one side, then use it to line your mixing bowl.  Take 2 other bags and put one inside the other to make a double-thickness bag.

In the first stage,  your chosen helpers will take turns measuring all the “safe” ingredients into the bag-lined mixing bowl.  Working with the dry ice needs closer control, so keep your supply of CO2 off to one side for now.  As you introduce each ingredient, explain why it’s being included.  You can use the short explanations provided here as a starting point, adding your own facts or curriculum tie-ins, but remember to keep it brief or you’ll lose your audience’s attention.

Let’s start with water: most comets are composed primarily of water ice. During the early formation of the solar system, the planets were bombarded by comets—so some of the water you will use in this experiment may have actually originated in the Kuiper Belt!  (For a popular-science overview, check out this article from Time Magazine.)  Your helper will add 2 cups of water.

Next, add sand or gravel: most comets incorporate at least some rocky material.  Have your helpers measure out about 2 Tablespoon (TB) of grit.

Next, you’ll add ammonia: real comets typically contain NH3, the active ingredient in this cleaning solution.   (Regrettably, few, if any, comets show up to help when it’s time to clean house.)  If you’re using a squirt bottle to store the solution, your helper just needs to add one “squirt” of ammonia solution.  Otherwise, your helper should measure in 1 Tablespoon.

A Dirty Soup of Rocks, Water, and Organics

A Dirty Soup of Rocks, Water, Ammonia, and Organics

And, for our last step before major excitement sets in, stir in a touch of ice-cream topping: these contain organic molecules, which are a normal component of comets. The organic molecules in real comets are not this delicious–they include hydrogen cyanide and formaldehyde–but comets often contain complex and interesting compounds such as amino acids.   Researchers at NASA’s Ames Research Center have shown that amino acids from comets striking Earth long ago during the Solar System’s early eons would not only survive impact but would form even more important compounds for life under the heat of impact.   So it may be that we are here to enjoy ice cream (and sugary toppings) thanks to ancient comets.   Let your helper squirt in one squeeze-worth (it will be about a tablespoon).

Now, finally, it is time to add the dry ice.  Comets contain significant quantities of frozen gases, especially carbon dioxide, which just happens to be the gas that we call “dry ice” when frozen.  This stage of your demonstration is a two-step process. First, you will put on safety goggles and work gloves and use the hammer to tap off about 2 pounds of dry ice (1/4 to 1/3 of your supply).  Place the chunks into the doubled plastic bag and twist the opening closed.  Then, and only then, one lucky volunteer will be asked to don a set of goggles and, once protected, may proceed to smash the contained dry ice with the hammer.

Crushing Dry Ice with Flat Side of Hammer

Crushing Dry Ice with Flat Side of Hammer

Have your crusher use a two-handed grip (this helps deflect the temptation to also handle the bag of dry ice and also limits the range of motion, protecting bystanders from the crusher’s swing) and turn the hammer sideways, to smash with a broader surface area.

Once that stage is completed, ask the crusher to rejoin the group.  Make sure that the wooden stirring spoon is at hand and that you are still wearing your work gloves and goggles. Then open the bag and quickly scoop out roughly two cups of crumbled dry ice.

2 Cups of Ice-Cold CO2

2 Cups of Ice-Cold CO2

Give the mixture a stir and then swiftly add the dry ice, stirring vigorously. There will be some dramatic vaporization of CO2 and in moments the dry ice will freeze the water solution to a slushy slurry. Quickly wrap the plastic bag around your slushy mass and—keeping those gloves on—form the contents into a snowball, using firm pressure to shape the contents.

Comet's In the Bag

Comet’s In the Bag

You will feel the mass harden as you form your iceball. At that point, it is time to unwrap the comet and reveal it to your onlookers. You will have something that looks surprisingly like the common description of a comet—“a dirty snowball”.  You may even want to use your snowball-making skills to firm up the comet a bit once you remove it from the bag–remember to keep your gloves on!

Forming Up the Proto-Comet

Firming Up the Comet

Your finished comet

Your finished comet

Set the comet aside on a cold-safe surface, in a location where the eventual water-ice-melt will not damage anything. The comet will continue to outgas CO2 vapor. If you are working outdoors, any breeze will push this plume into a fair imitation of a comet’s tail.

Gases (CO2) immediately begin to sublime from the comet's surface

Gases (CO2) immediately begin to sublime from the comet’s surface

Your experiment team will undoubtedly want to repeat this process. A typical group of students will demand about four comets. After 2 or 3 builds, it will be time to set up fresh plastic bags for mixing and crushing.  If the group is larger, find ways for students to share participation tasks. For instance, two students can take turns as dry-ice crusher, two can each measure one cup of water into the mix, and so on.  As you proceed, instead of repeating the descriptive information yourself, invite the students to call out more of what they remember about the components represent.

Comet, Starting in "Dirty Snowball"

Here’s one small starter comet, let’s call this one “Dirty Little Snowball”

 

These model comets will last a long time, up to a few hours depending on their size and the conditions.  You can explain that the comets which get our attention are much larger–Comet Halley is estimated to be about the size of Manhattan Island–and between visits to the inner Solar System, they orbit back to where it is too cold for water, ammonia, or CO2 to be anything other than solids.  By no means do you need to make any effort to create spherical, smooth comets.  In fact, as you create successive comets, allow them to be different, irregular, and, well, messy.  Here are a few samples from a few of my comet-making sessions:

That's one frosty, rocky, comet:  "Before"

That’s one rocky comet, frosted with ice crystals of H2O and CO2

 

 

That's one slimy, partly-dissociated comet

Here’s a comet with conspicuous dark patches

That's one tall, cone-shaped comet

That’s one tall, frosty, cone-shaped comet

 

 

 

 

 

 

 

If your schedule permits, allow some time to pass and return to look at the comets after they have lost more material, as if you are checking in on a comet as it approaches the sun and some of its ice has been drawn off under the combined forces of the sun’s radiation and the solar wind…forming the comet’s tail.

Holey Comet, Batman!

Holey Comet, Batman!

Cooking with Kuiper: Project Supply Chart

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All Lined Up for Comet Building

All Lined Up for Comet Building

(Update:  2/18/2015)

As mentioned in the notes for project leaders, it’s best to repeat the procedure at least twice–three times if the class is large, to ensure that everyone has a chance to participate in the “safe” portions of the activity and to produce a variety of comets to observe.

Purchase dry ice in advance by as much as a day (purchase at the higher end of the quantity range if you need to store it overnight) and  store wrapped in insulating material, but not  tightly sealed.  (Frozen CO2 will sublime to gas and can even explode a container that is sealed too tightly.)  A small non-airtight cooler tucked into another lightly-closed, non-airtight cooler works fine, especially if wrapped in a blanket and stored in a cool location.

For the ice-cream topping, choose a small bottle with a squirt-style top full of caramel- or chocolate-flavor syrup for ice-cream sundaes.  Do NOT purchase hard-shell toppings;  stick to sticky sugar syrups.  Be prepared to fend off requests to sample the syrup.

For ammonia, do not use pure ammonia;  simply choose a basic non-sudsy ammonia-based cleanser.  A “sport-top” (squirting-style) water bottle about half-full of ammonia works well and keeps the ammonia away from hands, eyes, and clothing.  However, be sure to clearly label the bottle with the contents.

For trash bags, choose a good, sturdy brand.  They’ll take significant abuse!

Please note carefully that most equipment is required to be either plastic or wood.

  Per comet

For about 3-4 comets, allowing for waste and failures

 

Estimated cost

(2015 prices)

Good sturdy “tall kitchen” garbage bag, cut down one long edge to make a liner for the bowl 1

2

(have a second on hand in case the original tears)

$0.50

($12 for box of 45)

Additional “tall kitchen” garbage bags

3

Open the bags and layer them one inside the other, to create a triple-thick bag

6

Have a second layered set of 3 bags on hand in case of tears

$1.50

($12 for box of 45)

Large plastic mixing bowl, 2-cup plastic measuring cup, tablespoon measure, large wooden spoon

1 of each

Reminder:  for safety, use plastic containers and a wooden spoon

1 of each Bring from home or borrow from volunteers
Water 2 cups

2 quarts on hand

(store in a pitcher for measuring out in 2-cup quantities)

n/a
Sand or fine gravel 2 tablespoons ½ cup zero
Ammonia 

One squirt (about 1 tablespoon)

 

½ cup

$1.50

($10 for 28-ounce bottle)

Ice-cream topping

One squirt (about 1 tablespoon)

 

About ½ cup (Bring at least a 4-ounce container of syrup.) $6.50
Dry ice 2 cups of dry ice, after crushing. About 7-10 pounds of dry ice. $15($1.50 per pound)
Safety goggles

1 pair, adult size

1-2 pair, adult or child size (depending on student age)

1 pair, adult size

1-2 pair, adult or child size (depending on student age)

If not available in classroom—one-time purchase for reuse in many projects. $5 each

 

Heavy work gloves 1 pair, to fit Project Leader 1 pair, to fit Project Leader Use own gloves or borrow from volunteer (a new pair would cost about $10-12)
Total Cost: $39.50

For an easy-to-print version:  Just Supplies Cooking with Kuiper

Cooking With Kuiper: Notes for Project Leaders

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(update:  2/18/2015)

Last week on the tvweb, this happened: astronomer Derrick Pitts turned up once more on “The Late Late Show”.  And even though science-loving Craig Ferguson has moved on to new horizons, Director Pitts stayed and showed Guest Host Wayne Brady how to make a comet.  So I looked back at my entries for this project and realized they need some updates, and particularly some visuals. Have patience–it’s a multi-entry blog feature, so look for two more entries for the complete Updated Edition of “Cooking With Kuiper.”

The Kuiper Belt–that donut-shaped aggregation of hundreds-of-thousands of rocky objects orbiting beyond Neptune–is one of the most interesting regions of the Solar System just now.  Just last year, NASA’s Deep Impact explorer hurled a probe into the surface of Comet Tempel 1, flinging up a curtain of debris to reveal more about the comet’s composition.

Deep Impact's probe sent back this image just before striking Comet Tempel 1 (Image: NASA/JPL-Caltech/UMD)

Deep Impact’s probe sent back this image just before striking Comet Tempel 1 (Image: NASA/JPL-Caltech/UMD)

NASA’s New Horizons mission is due to arrive in July 2015 at Pluto–the most famous Kuiper Belt object–to observe the newly-redesignated dwarf planet and its five moons and then head out to explore.  You can check in on the progress of the mission at NASA’s home for New Horizons.  There is a general agreement among astronomers that the comets which return again and again (periodic comets)  began in the Kuiper belt.

In this project, we’ll be building a model of a comet using household supplies to represent most of the comet’s components and dry ice to capture the icy-cold environment of the Kuiper Belt.   While most Messy-Monday projects are entirely hands-on this particular activity is meant as a demonstration with controlled audience participation.  Some students may be careful enough to work with dry ice…but too many are not, and the step at which the dry ice is added can be dynamic and unpredictable.

A study of comets draws in much of what students should know about their planetary system and extends that knowledge into new and intriguing areas.  Students in intermediate grades probably know the basics of comets…that they come from the far reaches of the solar system, that they have tails, and that a comet crashing into the earth makes a cool disaster movie.  They might be surprised to know that scientists still want to find out more about comets, because all we know about comets so far is from watching them on their travels through the solar system.  Just a few months ago, the Rosetta spacecraft launched in 2004 by the European Space Agency actually landed a robotic explorer named Philae on Comet Churyumov-Gerasimenko, so why not launch an investigation into the nature and structure of comets by building our own lumpy, irregular, gas-spewing comets?

This activity is best paired with at least one hands-on activity centering on comets.   The second activity in this series combines a crafting-style model construction project and a cometary motion simulation game.  Other resources can provide other activities.  For instance, students can make a flip-book illustrating a short-period comet’s behavior as it travels from the orbit of Neptune to the sun and back.  And users of Pixel Gravity can run a simulation of the comet impact which led to the demise of the dinosaurs.

In the next installment, we’ll assemble a supply list for this project.  I recommend you  plan to build at least two comets, to let more kids participate and also to illustrate just how different two comets can be.

 

Messy Monday: Science Projects for Kids, Teachers, and Parent Helpers

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Welcome to the first official posting under this new category.  In these installments, I’ll be sharing science projects developed over many years while serving as The Science Mom at my local elementary school and in a community after-school program.   When my friend Jean Southland and I first started the in-class projects, the teacher invited us in on Mondays, to create a fun activity for that worst-of-days to students, the First Day of the School Week.  We fooled around with ideas to give this extra science class a name and settled on Jean’s simple and inviting “Messy Monday”.  Since then, Jean moved on to wider-scale education duties, from teaching to administration, and she is now head of  a local charter school.  In the meantime, I continued with developing classroom-scale science projects and coaching a small robotics team.

When the youngest of my kids finally moved on from elementary school and my geek needs were being satisfied by playing with robots, I felt twinges of guilt that I was leaving the next round of students in the lurch.  The most-frequent comments I heard when running science project sessions could be summarized as: “I could never do that”.  Sometimes it was the teacher, in which case she/he would mean  “I can’t spare the time to figure out supply lists, shop for stuff, sort out materials, and test procedures.”  Other times, it was another parent, in which case the meaning was either  “I could do that, if only someone would explain what it’s supposed to mean” or “I understand the science, but someone needs to give me a checklist to follow.”   And in these times, potential cost is always a concern, as most supplemental projects—from field trips to science experiments—end up being funded by parents or from teachers’ own pockets.

In these episodes, I’ll be having a stab at meeting both sets of needs.  With any luck, the end result will be a book of “recipes” for science projects with enough information provided for teachers to slot into their curricula in order to satisfy the science standards they must meet, with clear supply lists to distribute to classroom-helper parents, and with step-by-step instructions for completing projects that any interested parent or teacher will be able to not only follow but build upon to suit their own audiences.  While (like every other blog in the Known Universe) the ultimate result is to be a book of projects that a teacher or parent helper could have at hand, in the short term, there will be first, these erratic blog entries and second, a series of leaflet-style e-docs in a more readable/printable form, to be available from the usual e-book suppliers.  Think of the blog entries as the beta version, the leaflets as the Basic Edition release, and the eventual book as the Portmanteau Edition, with updates, extensions, and add-on packs as needed.

To open the subject, I’ll be delivering a flurry of quick posts to get things started, but then will back off to a more regular pace.  The goal is to deliver one project-worth of information in no more than two weeks.

Every Messy Monday project guide has four key components:

  •  A set of notes for project leaders, sketching the key elements of the project and the science topic it is meant to address
  • A detailed supply list, structured to make it simple to purchase supplies for either a one-shot demonstration or for a classroom-sized group activity.
  • A set of instructions for working through the project with students, including commentary to help cope with common classroom-management issues, questions that are likely to arise, and issues to keep in mind from safety to fairness.
  • A rough estimate of the cost to run the project.

So, let’s get started with a truly cometary project…

Ms. Mona Pandium

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Go Giants!

 

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