Titanium, “Periodic Table of Poetry” poem by Chicago poet Janet Kuypers

Titanium

Janet Kuypers

from the “Periodic Table of Poetry” series (#22, Ti)
(based on the poem “The Way You Tease Me”)
10/1/13

What I think I like the most about you
is the way you always leave me wanting more.
The longer I’m out in the sun, the more red
my nose and cheeks get, and the more I want
to slather you all over me to protect me.

What I think I like the most about you is how
whenever I see you around me, you consume me
like a wave of heat on a summer afternoon.
Seeing your metal along my flesh teases me
until sweat dances down my hairline and tickles my neck.

What I think I like the most about you
is when you say that absence makes the heart grow fonder,
because you’re like the fireworks I only see
on special occasions, and with your absence
I want you more, so you couldn’t be more right.

What I think I like the most about you
are the things that make me think I have to fight for you,
are the things that make you cost just too much.
It’s true, the market determines your worth to the world,
even if you’re always priceless to me.

What I think I like the most about you
is the fact that you can lead the way to help me
fly high into the sky, so I could see any corner
of the Earth, or even see the Universe beyond
our narrow global vision. You do that for me.

What I think I like the most about you
is the fact that you seem so common in the world,
but you manage to hide yourself in just the right way.
But still, you’re everywhere from dental implants to cell phones,
to engagement rings to jet engines to space ships…

What I think I like the most about you
is the wondering about you, is the yearning for you.
That’s what I like. This high-charged guessing game.
You make me work so hard just to find you. You leave me
to think about the possibilities. And that’s what I like.

Thulium, “Periodic Table” poem by Chicago poet Janet Kuypers

Thulium

Janet Kuypers

from the “Periodic Table of Poetry”” series (#69, Tm)
7/18/13

Scroll to Medieval times,
and see a classical map.

Look over the Carta Marina,
because there you can find
what some theorized
as an island of antiquity —
through for those who traveled
by boat around Britain,
the Thule was the most northerly
of the Britannic Islands.
In ancient literature, however,
the Ultima Thule
was the symbol for
a far-off land,
something unattainable.

And when Thulium was discovered
in the late eighteen hundreds
(named after Thule,
as a mythical region
in Scandinavia),
the element was so rare that
it’s qualities were unattainable…

But even though this is
the rarest of the rare,
and despite the high cost,
it’s in the YAG laser, used
for laser surgery, for work
unattainable by the human hand.
It’s even bombarded
in a nuclear reactor
for it’s use in portable
x-ray devices,
so we can see
what was otherwise
unattainable to the naked eye.

I mean, because of
Thulium’s fluorescence,
it’s even inside euro banknotes,
to prevent counterfeiting.

Because Thulium fluoresces
with a deep blue hue,
we’ll sail the oceans
to learn, we’ll go to
the farthest places we know,
just to see trace glimpses,
because we want to go beyond
what we see…

Terbium, “Periodic Table of Poetry” poem by Chicago poet Janet Kuypers

Terbium

Janet Kuypers

from the “Periodic Table of Poetry” series (#65, Tb)
7/17/13

Looking for better sound
remains at the top of the list.

Having better stereo speakers
at all group parties, meetings or settings,

having a portable sound system
anyone could take with them,

even using sound while in the car
to reduce traffic noise, hear better music,

or talk hands-free on your smart phone.

The possibilities seem endless,
but stereo speakers take up space —

so we need to use science and technology
to even help us meet our audio needs.

Companies create better and better
sound systems, earbuds for iPods

have grown smaller and smaller,
even with noise-canceling technology…

There has to be a way to use the world
around us to get us exactly what we have

decided we need.

So, after just a little research,
I discovered an element twice as common

as silver on this planet, and when it is mixed
into a compound, Terbium can help create

a “Soundbug” speaker that can turn
any flat surface into a flat panel speaker.

(Any flat surface, like an office window,
or your dining room table at home.)

You see, the Terbium-filled Soundbug
can be plugged into a headphone socket

and then suction to any flat surface —
literally turning that surface into a speaker.

Now, this Terbium-rich Soundbug
is only the size of a computer mouse,

and retailing at less than fifty bucks,
they’re targeting this to the youth market;

but a wide-range of technology users
are going to love this little gadget

that can re-purpose everyday flat surfaces
into speakers for all sorts of sound needs.

The thicker the flat material surface, the
better the sound quality of the Terbium-laced

Soundbug speaker, and yeah, the resonance
of the speaker material (wood, glass, metal)

can effect the final sound quality,
but in theory you could daisy-chain

a few of these Terbium Soundbugs together
to excite multiple electrical currents of the music

players, to excite the mock speakers,
to bring every party to life in richer stereo.

Now, I know Terbium is like a
“Swiss Army knife” for cancer diagnosis,

and I know it’s green luminescence
gives color enrichment to tee tees

and is even used in fluorescent lamps,
or lasers, or semiconductor devices…

But this whole “using what we have
to multi-purpose what we have” idea

is really beginning to stick with me.
This audio technology can work with

magnetostriction, like, in a car instead
of in a business meeting or a party:

in a car, the Terbium Soundbug
could create noise-insulating windows,

blocking out the excessive sounds of traffic
(and you know how I hate the sound of traffic…).

But to business workers in a car,
the mobile phone version of the Terbium

Soundbug could be stuck to a car windshield,
to allow hands-free, headset-free talking.

(Well, that may cost a little more
than the indoors Terbium Soundbug,

but no price is too high to stop people
from staring at their phones while driving,

right?)

So yeah, although it is more common
on earth than silver, Terbium may still be

hard to get sometimes — but if we can find
this many uses for this element,

I’m sure it’s demand will increase, because
pretty soon, Terbium will be desired

more than anything.

Tellurium, “Periodic Table of Poetry” poem by Chicago poet Janet Kuypers

Tellurium

Janet Kuypers

from the “Periodic Table of Poetry” series (#52, Te)
7/13/13

When a couple is meant to be together
(but at their core they’re nothing alike),
you can see them come together almost violently,
before their anger pushes them away from each other.

Until they do it again, and again, and again.
It’s like they can’t stop. They can’t help it.

They rush to each other for a mad embrace,
they feel intense attraction that they can’t escape,
‘til they know despite their lust, they hate each other so,
and they do everything they can to break free.

It’s a sick cycle they’re stuck in.
This coming together. Then rushing apart.

#

There’s electricity in the air. I hear the buzz
whenever I walk by that street corner and see
all of the electrical wires, crossing in every direction —
I can hear the loose electricity jumping into the air.

Do you know why electric wires are spaced far apart
when they’re up high on poles like that? Well,
that’s because those Tellurium metal alloy wires
up high in the sky like that aren’t even insulated —

and they have a strong magnetic field with all that electricity
coursing through them. If wires were closer to each other
while up in the air, the wires would swing toward each other
because of their insanely strong magnetic attraction.

In being drawn to each other, an arc may form
between the wires, destroying them almost instantly.

But then again, magnetism in the wires switches polarity
a hundred and twenty times every second
(because ofelectricity’s sixty hertz frequency)…

That would make those wires want to repel each other
as often as they were magnetically drawn to each other.
So yes, for one hundred twenty times every second,
these wires would vibrate back and forth.

So if there’s no electric arc, these Tellurium metal
alloy wires would vibrate so intensely and violently,
that if they weren’t kept far apart
they would destroy each other, vibrating.

#

Tellurium is used in alloys with steel
to make high-strength conductors.
Abundant cosmically but rare on Earth,
it’s often found combined with gold:

in the first gold rush, this mix looked like waste,
so they used it to fill potholes or sidewalks.
Once they realized it was Tellurium and gold,
there was a second gold rush…

Acute poisoning with Tellurium is rare;
most organisms tolerate Tellurium.
Organic tellurides have antioxidant activity.
and can even be used to identify pathogens

responsible for diphtheria.
It’s optical refraction makes it perfect for glass.
It’s been used in color ceramics,
and gives rubber heat resistance,

In copper, iron, lead or stainless steel,
it makes the metals more machinable,
improving solar cell efficiency and electric
power generation, so it helps any energy.

I don’t know,
maybe that explains why
we’ve been feeling
this electricity in the air.

Technetium, “Periodic Table of Poetry” poem by Chicago poet Janet Kuypers

Technetium

Janet Kuypers

from the “Periodic Table of Poetry”” series (#43, Tc)
7/10/13

You’re named from the Greek word for “artificial”,
because you were the first element man ever made…

We wanted to discover, we wanted to find you out —
we’d even create you if this was the only way.

We can only find you after your brethren
have been broken apart to reveal you. But the thing is,

your name is a bit misleading, though, since
you can be found naturally, albeit in trace amounts.

Though it’s funny, we searched for you for so long,
and now we discover that you’re a by-product

of our nuclear power stations. Then everyone thought
we wouldn’t know what to do with nuclear waste.

You’ve been put into the environment as
“low-level-waste” for nearly half a century,

but what I’ve learned is that doctors inject
small amounts of you into patients with tumors,

so they can see exactly where they need to heal people.
People wondered what we’d do with our nuclear waste,

but now you’re used in 20 million medical procedures
each year, because your short half-life makes you safe

and the way you decay helps doctors see
exactly what they need to do to save a life.

And yeah, you’re nuclear waste injected into a human,
but they need such a small amount that radiation is low.

It’s hard to believe that we searched for you for so long,
and now that you’re injected into 20 million patients —

in North America alone — every year,
it’s good that we finally found you out.