Lettuce and Spinach — its Origin
One of the most unique Photographer / Artist, Karen showed her stunningly beautiful
photos of Canada Lettuce seed in her blog “Draw and Shoot” it awaken my memory that
I had the photo of this (or the one, closely related) plant — The seed-pod in her photo
looks very much like a Dandelion’s, as you can see. = In deed, this plant is a cousin of
Dandelion and as its name suggests, it closely related to the Lettuce.
Or the Lettuce was descended from this kind of Plant, namely
Luctuca of Asteraceae (Compositae) Family. When I found that this plant was the
ancestor of the Lettuce, I was shocked —– as it was completely out of my imagination.
( Not only it looks so different but also I’ve never seen it in an open field and flowering.)
A book, I saw said that “to eliminate its bitter tasted white sap, it took 200 years” though,
Wikipedia says Lettuce has been cultivated since ancient Egyptian time. So, the English
local farmer might have had their own approach, instead to import the established
variety from Mediterranean.
Something similar stories are in Spinach.
The photo left is a plant belongs to
Spinacia in Amaranthaceae family.
The Spinach was created from this kind
of plant, and this weed is also edible.
(Though, this plant contains Oxalic acid,
thus if eat a lots, it would cause an ulcer
on the mouth.)
The cultivated variety is not only to eat
leaves but also there was a variety to eat
thickened stem, called “Poorman’s Asparagus”. And other was called Lincolnshire Spinach.
—– In deed, we human being is very resourceful — or used to be so poor to scrape the life ?
Still, there is a very funny situation. Despite increased world population, therefore needs
lots more food and in deed great number of the people are starving, in the same time,
we are said to be wasting 1/3 of food. (couldn’t sell in the super-market, due to a blemish.
Or made them rotten in a fridge due to too much shopping.) —– Something wrong isn’t it ?
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Costume design / Flat Panel to 3D Sculpture
I went to a dress rehearsal of performance held at a private club, and took pictures
of this costume though, the club was members only private club,
I can’t give any detail but only show those photos.
Obviously the costume was pains takingly made by many designers, working together, still
I can’t give the detail of who were they, at moment.
—– It was a character in a story, an Eque.
What took my attention of this costume was,
its approach to design the hose head.
The curved structure was divided into each parts,
and formed, shaped, then put together.
—– When I designed something similar,
a head of Flying Dragon, I figured out the
shape to make it only from the 2 panels,
= upper part (face) and lower part (jaw), and the
back part of the head was made, cut and bent metal panel. (on top of those, some
additional joint panels, enforcing metal bar etc , still, despite its size and appearance,
it took only 2 days to make = very simple structure hence easy to make.
—– when designer makes a shape of a horse head, most of the case it would be done by
either Papie-mash or Casted Glass-fiber Epoxy. —– to make it in this way was rather
unusual and looks fun. 🙂
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Focus-shifting Muliti-exposure Photo
Don’t worry, You don’t need to clean your specs.
It’s not your eyes. —– Photo IS fuzzy and it’s meant to be. 😉
——————- (Hey, this is a very very pretty girly picture ! = Click it and see enlarged. 😉 )
These photos were taken by a technique, Multi-Exposure with Focus-Shift.
—– In order to have an effect = a core image with out-of-focus halo around, I did
it before while camera was set on a tripod. But this time I did it by hand-held.
I guess, it could be done by Hacking into camera’s operational program and
over-drive the AF motor while the camera is giving the multiple exposure.
(Single exposure is too short to manually shift the focus. —– In the old days of
wooden camera, the old masters used the same technique to shift a focus while
giving a long exposure. And the Minolta Alpha 7000 had this effect in their
Portrait Mode to create softer image. ) —– But, I found it was not
difficult to move the focus ring during the few multiple exposure. = Just Do it,
and if not successful try it again —– success rate is somewhat one in four. 😀
(not only how far focus to be shifted, but a trouble of camera-shake is also
a spoiling factor. = If you are a bad shooter, shoot a lot — one might hit a target !)
————- (This must be a puzzling photo = where it was focused ? 😉 )
Keen reader of this blog might be realized that the post in these days were all connected
behind the scene = how camera can be steadily hand-held etc. (without having enough
practice and gained a confidence, this kind of photography would be only a waste of time.
Creativity does not occur out of blue, it needs to have a base, or incubating ground.
A practical adjustment or improvisation may suddenly conceived on the spot but
it is a minute part of the operation.
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Home-made flower :-D
It’s a middle of September, not many flower left.
—– Don’t tell me to go to a florist. I don’t buy flower or plant.
They should be where they grow. Unless I found a pot abandoned on the street.
—– (provided it’s not a meter-tall tree.) —— Then Kinetorori murmured me
“If no flower, why not make one yourself” —– It’s a his bad habit.
It’s the most un-Zen like practice though, —– I did. 😀
(Out of used envelope.)
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So, a flower is blooming in my room. (keep blooming for foreseeable future. 😀 )
Buddhists telling us “Live on the moment”
—– though, I took a way against it.
A photograph is imprisoned to the moment.
So, to have a Jailbreak of this “Moment”
I made a photo to have rather prolonged span
of time (unlike ordinary photographic norm).
The photo above consists multiple exposure
while having its focus shifted. = Yet another
attempt to create fuzzy image —– went
beyond a soft-focus lens, yet keeping a sharp core of
image, unlike a pinhole photo.
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Camera Stability Test
In the previous post, I talked about the Image Stabilizer a bit though I’m not a fan of it. Since, I haven’t seen any photo which was benefited from it so far. May be because, even without it I’m quite capable to shoot good enough picture hand-held. (even 500 mm lens !)
People may get a benefit of its Placebo effects = Peace of mind stabilizes the hand. 😀
Still, it was only “Impression from my experience” —– not from the objective comparison.
—– So, in this occasion I purposely tested it.
(but I wouldn’t say it was scientifically rigid —– Just clicked the camera as usual.) The test object was a “Pinhole-light” as you can see the photo left. = If the camera shakes, photo will clearly shows its movement at once.
I gave only one click for each speed, 1/125, 1/60, 1/30 but for Image Stabilizer (IS), further 1/15, 1/8 and 1/4 were tested —– It was free-standing hand-held though, I was using my Chest-pod. 😉
( Check the image of pinhole on the enlarged photo please)
Canon EF 200~70, F2.8 L IS lens on 5D Mk3 with IS On. From left 1/125, 1/60, 1/30. Lens zoom was set to 200 mm.
and further 1/15, 1/8, 1/4 —– even IS couldn’t save a shake on 1/4 .
The same as above but IS Off —– though, it didn’t make much difference.
Further slower speed = 1/15, 1/8, 1/4 —– 1/8 started to show a shake.
(Its horizontal movement showed, Chest-pod stops vertical shake more !) = It’s mean, IS made only one stop difference.
Tamron 500 mm F8 lens was tested on Canon 5D Mk3 on 1/125, 1/60, 1/30.
The same Tamron 500 mm was tested on Nikon D810 body, 1/125, 1/60, 1/30.
Results shows almost no difference on the different camera body.
Canon EF 70~24mm F2.8 big heavy lens was set to 50mm and tested 1/125, 1/60, 1/30.
And small Micro Nikkor 55mm F3.5 lens was tested on Canon 5D Mk3 body.
—– Different size and weight of the lens showed not much difference.
My conclusion was, as I thought before, the Image Stabilizer makes little difference, it was mare one stop. (Anyhow for 200 mm lens, hand-held 1/4 (if not 1/8) is a hopeless situation.)
So the lesson was, that if you are a good shooter, a sharp photo you made was = because you are a good shooter, not because of Image Stabilizer. And if you are a bad shooter, no Image Stabilizer will rescue you.
Those lenses are the lenses I tested with.
Some are the latest current model but 55 mm Micro Nikkor and Tamron mirror lens are more than 40 years old. —— still working perfect (optically 😉 )
And the kitchen was where I did those test shots. The shooting distance was about 2m, so, I shot them while standing here (half step forward). All from the same distance.
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Stabilize the Camera — Chest-Pod
There are many way to stabilize the camera. Starting from the way to grip the camera.
Ultimately a use of Tripod or Mono-pod, even a use of a Bean-bag.
Still, it’s all down to a mind-set of the photographer = Whether to pay an attention
against a possible camera-shake and become aware of own doing?
If it is a case “Doesn’t matter that the Stabilizer built into the lens should take care of
that problem”. —– This is the most funny situation. It is only a psychological trick.
The stabilizer may save a photo while cancelling a camera shake for further 3 stops = such
as in a situation of 200 mm lens, it would be safer to use a shutter speed 1/250 or faster
and with the aid of stabilizer it “may” drop to 1/125 or 1/60 —– still “may not” works.
In such case, I would set 2 stop higher ISO setting to get 2 stop higher shutter speed.
—— In the same time a “Maestro” may say “other than ISO 100 color is not in its best”
—– Oh, really ? ! The BEST mean it is still in a relative matter = NOT the absolute.
Our right-eye and the left-eye are not necessary even seeing the same color.
(Test it your self if you are not aware yet. 😉 —– If not aware this discrepancy,
how the one could boast about “the critical Color” 😀 )
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I used be working close together with the publishers, their printers, plate-making engineers,
and one of my closest climbing mate of mountain has studied Printing Technology and
became an expert of the photo-scanner (such as Crosfield’s machne) —— I heard many
wired stories of “Special Sorcery” in their trade —– still, when it makes the print on the paper,
such as slight difference of the paper which is different a roll to roll, or even a humidity in
the air changes absorbency of the paper hence changes the color of print, etc. etc. = there
can not be any reliable absolute or perfection. It is just someone’s preference.
Anyhow, computer to computer, this CRT to that LCD screen, the color is always different
= what fuss about such minute difference. 😀
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As I grown-up in the time when the color film was ISO 64 or 100, B/W was 400 and even with
push-development, ISO 1600 or so (Kodak Royal Record Pan = ISO 12500 was existed though)
I had to stabilize the camera other than ISO speed. So that, I tried many kind of chest-pod.
(though there are too many — even I don’t remember how many I bought and made myself.)
So, I show you two of my handmade.
This is a chest-pod of current use on my DSLR. The simplest, hence the most neat one !
It was made by aluminium pipe and a short piece of C-channel (which was cut and bent).
(A trouble was, the Airport Security suspects that this is a part of a disguised weapon. 😀 )
—– Unlike western people, I hold a camera right side down (it’s a Japanese tradition)
therefore when I shoot vertical-way, this chest-pod come against my left shoulder
just under the collar bone.
And this is the other one I made for EOS Film Camera which doubles as an external
battery chamber. ( AA x 5 rechargeable batteries instead of 2CR5 Lithium battery)
And it functions as a chest-pod exactly the same way as the other one. But this one can
fold down under the camera bottom. ( I don’t make a rubbish for a sake of Youtube. 😀 )
The advantage of this shooting style is, the hand which triggers the shutter, its elbow was
firmly lodged onto the body, hence it is far more stable than the style having right arm in
the air and move a finger to trigger.
—– May be because of the fundamental flaw of the camera holding style in the west, the
camera shake is unavoidable, hence, it gave an opportunity to the manufacturer to produce
“Stabilizer” and sell it for £500 more price ! (I don’t think it costed such amount for them. )
—– In a video image, shaky picture is annoying but on a still, “two stops slower” seems not
much use —– better use same £500 to another shopping, and set 2 stop higher ISO, —– above
all, have a practice to gain a stable holding of the camera would be far more advantageous.
Since, to gain calm, stable mind to stabilize the hand would be far more beneficial to the
one’s whole life in general. Anyhow, not all the lenses you got, has a stabilizer, and
living with unstable mind wouldn’t bring any happiness.
Better think it in different angle and better change the mind-set and the way you shoot.
(If you doubt, have look a photo here and the photos by 500 mm lens in the previous post. )
(Here, the Zen practice comes in. 😀 )
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Body Parts
Those photos are just a casual snap of the people playing with computer.
But using 500 mm lens hand-held. = naturally, there was not much room to use
such long telephoto lens in a small room, picture became a kind of close-up.
Yet still, it was 2 m away, people didn’t mind to be photographed much. —– and
I found a quite unusual usefulness of this lens, despite it is rather dark F 8.
(ISO was set to 1600, shutter speed was 1/15 ~ 1/30, AV mode — just to mention)
I hope you enjoy the photos. 😉
Next time I hope to upload more appetising body-parts. 😀 😀
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Ring Flash / Flash Story
——– (This Ring Flash was made to use with the Fish-eye lens on the
——– Yoshi-handy handmade camera, 36 years ago ! 😀 )
In some posts ago, I’ve shown Studio Flash and ring Flash tube.
May be I should talk a bit more about Electronic Flash-light. — Why It’s called “Electronic
Flash” was, before, Flash-light meant Bulb Flash = the people over 60 might remember,
even if it was not a typical bulb shape, how about Flash-cube / Magicube at the time of
Kodak Instamatic camera, they are still flash bulb, but only small. 🙂
Flash bulb was an “Explosive device” = thin aluminium foil was packed into a glass bulb
with Oxygen and ignited by an electric spark, with a “Bong” noise !
( I only know from Antic collection though, yet before Flash bulb, it was an explosive
magnesium powder = it’s literally explode ! —– hence, all the assistant of a photographer
used to have a lots of spot on their face, burnt by the exploding magnesium powder. 😀)
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Unlike such hot staffs, electronic flash is using a discharge of high voltage electric energy
through a Xenon gas filled tube. To make this, a capacitor inside of a Flash was slowly
charged-up to high voltage, then discharge it in an instant to produce very intense bright light.
Like an electric spark, it needs to be high voltage, and the larger the capacitor,
the light produced from it would be the brighter.
This is the reason why a camera’s built-in flash, which got only small capacitor inside, was
not bright-enough to reach distance. In contrast, a studio type big Flash having a bank of
capacitors connected parallel to store huge energy,
and the big flash tube was made by a quartz to
withstand the heat shock created by a
discharge of huge energy.
And to charge-up those capacitors, studio type is
using the main electricity and a
portable type, clip-on type are using electronic
voltage converter to rise the battery voltage
to 315 ~ 350 V.
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As I said, the electric energy is first charged into
the capacitor.
The capacitor is an electric device, which was
made by insulated two metal plates or foils
to store electric charge. In order to store as much
as energy, very thin two aluminium foils were
tightly wound together. And to separate two
metal foils, paper or plastic film ect. which called
dielectric material was sandwiched between.
But most of the capacitor used in a flash equipment is a
type called Electrolytic capacitor which is not using common insulator, hence smaller in size.
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It is not well known to the people that those Electrolytic Capacitor has a limited life.
Especially if the equipment was not used long time (more than a year) they might be dead
and a moment when it was switched on again after long rasp of the time, the capacitor
would be internally short-circuited and gone for ever. —– ? Why the insulation breaks ?
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If you tested the conductivity of Aluminium, you may know, despite the Aluminium is a
very good conductor, Anodised surface shows no conductivity. With the Anodisation,
the surface of Aluminium was covered with the aluminium oxide which is an insulator.
Instead to use a separate insulator between two Aluminium foil, Electrolytic Capacitor
is using this oxide coating developed own surface as a dielectric / insulator.
So that, as long as the capacitor was kept receiving electric current, they maintain
the oxidized coating on the surface of aluminium foil. But if the equipment was left
unused long time, the insulative coating deteriorate.
—– And a moment when it was switched on again, and the voltage rose high, the
insulation breaks down and makes two foils short-circuited and start to generates heat,
or the power transistor pumping the high voltage into the capacitor burns-out.
If the capacitor over heat it would explode. (In fact, the situation is always the same
where ever electrolytic capacitor was used — such as even an audio power amp.)
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The remedy to this situation is, the same as to initialise a capacitor in a factory.
= slowly charge up the capacitor while waiting the insulating coat grows on the
surface of the aluminium foil (in its anode-side, hence it called Anodisation.)
—– To do this, professional people use variable transformer (Rheostat) and sloooowly
rise the voltage while giving hours of time.
(If you try, — You need to constantly measure the voltage of the capacitor —– first
second or two of switch-on, when you see the voltage rise to 5~10 V, then switch-off — if
the voltage shows “slowly” dropping, switch on again to see it reach to 15 V —- then
switch-off and wait till it’s drop to 10 V and switch on to 20 V again (like two step
forward, one step back) —— in this way until it reached to more than 300 V then to
the full —– all the process will takes hours ! 🙂 or 😦
—– But if you see the voltage drops rather quick, and never rise above
the certain voltage, don’t push it further, and you have to
accept that the capacitor is already dead ! —– Sorry about 😦
(still better than to see it exploded in messy manner.)
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In another approach, if the capacitor could be disconnected from the charging circuit.
(But this is only for the experienced person.) —– Use the main AC power.
Connect a Rectifier to live, and 100 K (may be reduced to 50 K, 10 K on the later stage)
register to neutral. And use this rectified direct current to charge up the capacitor.
In the first few seconds, when the capacitor’s voltage rose to 10 V, then disconnect.
When voltage was dropped to 5 V then charge it to 15 V (Keep a distance of up and
down proportional —– repeat this again and again, while time to time having a break
(to have a cup of tea 🙂 and make a capacitor to regain a potential to charge-up to
higher voltage) and slowly bring the voltage to the full.
From the main voltage in Europe, rectified voltage would be 310 ~ 330 V, about the
same voltage of the working flash. But in the US 110 V, it’s needs to use voltage
doubler circuit. And a fully charged capacitor of 1000 microF, 2000 microF has an
energy to evaporate a tip of screw-driver, if it was short circuited — and hell like Bang!
= Before you do any work, always DO NOT FORGET to discharge the capacitor
through 5W 1K register.
(If you couldn’t understand what I’m talking here straight, DO NOT attempt to try this !
—– to touch AC main, 200, 300 V DC is killingly dangerous for amateur !
(Accident happens in a completely unexpected moment, in an unexpected situation.)
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Assuming the capacitor is working perfect, the rest of the flash circuit is rather simple.
The thick two cables from capacitor were connected to the both end of a flash tube.
And an additional cable was attached outside of flash tube = this is the trigger which
receives 3000 V or higher voltage pulse. —– To trigger this very high voltage pulse, a switch
inside of camera shutter-mechanism used to short circuit a small capacitor in the primary
side of trigger coil, then in the secondary side 3000 ~4000 V pulse will be produced.
But now-a-day, sophisticated electronic camera can not take such high voltage, —– instead,
a trigger to flash was done by low-voltage signal.
= (In another word, to connect very old flash to a modern DSLR is highly risky.
(If you got Test Meter, you can measure how high the trigger voltage of the flash, on the
connector of Flash extension cable. If it shows more than 15 V, (it could be as high as 100 V),
never use it direct to the camera = Use a Slave trigger.)
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Once you understood the structure of flash-light, to modify it, is not very difficult.
My Ring flash on the photo was made to take the power from Brown F900 power pack
but before it was connected to Kako hummer-head flash. As long as it receives 300 ~ 350 V,
it will flash and the light-intensity is depend on the size of the capacitor.
(By the way, Flash-tube’s life is also limited ! = Don’t expect it works for ever. 😀 )
(That Ring Flash Tube can take, up to 200 WS = C x V-square x 1/2 = Wat-Second
such as—–1000 microFarad x 315V x 315V x 1/2 = 50 WS = GN may be about 25~28 though
it’s all depends on the efficiency, size of the reflector, how old the tube is, etc. etc.)
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End of Summer — Snap-shot by 500 mm Lens
If I didn’t tell you, you may not noticed that they were taken by 500 mm lens.
All the photos here except the obvious one were taken by a Tamron 500 mm
Mirror lens. Photo looks pretty ordinary, and nothing special are they ?
Even with its 500 mm focal length, thanks to its fundamental design (incoming light
was internally reflected back and forward twice) mirror lens can be less than 1/3rd of
its focal length = in deed, this lens got
only 11o mm long and 87 mm diameter
= say, mere one-size larger than my mug-cup.
So, the people on front of the camera may not
noticed that they’ve been photographed.
= anyway they don’t mind others 10 , 20 m away.
And of cause, I could easily take picture of a Mulberry, few left high on a branch.
I found scattered confetti on a ground = it must be left by a wedding photo-do.
So, the summer 2013 has gone. (more or less) 😉
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Reflection on a pond
Those are the simple straight shot of the reflection on a water.
If only it was not simple, was they were shot by 500 mm lens.
Please see the photos in large size by clicking the photo (and again. 😉 )
Long telephoto lens mean, it was in fact just in a small corner of the water. 😉
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