Tuesday, 30 December 2008
Berjalan2 semasa cuti Chrismas 2008
Ini adalah sebahagian dari tempat2 yang mana saya singgah dlm beberapa hari itu.
Tempat singgahan pertama...
Birmighim stay satu malam kat rumah Azli..24 mlm 25 dec 2008.
Tempat kedua Reading...lupa lak nak ambik gambar kat Uni dia...Ini anak Syukur berusia 3 bln...Tido semalam rumah dia 25 mlm 26 dec..
Pada pagi tu terus gi Oxford dan ambik gambar mana yg patut..
Salah satu gambar di dlm Oxford...
Rupanya Oxford Uni ni terdiri beberapa Collage dan dlm nya banyak gereja2 lama... yg sekarang dijadikan tempat belajar....semua collage didalam tu under naungan Uni Oxford.
Lepas tu bermalam kat rumah Mahadi pada 26 malam 27 dec.
Lepas tu gi Factory Outlet kat sekitar london gak.....Banyak barangan berjenama .....memang le dia buat potongan sebanyak 50 ~ 75 % tapi disebab barangannya mahal jadi selepas potongan pun masih beratus lagi....Contoh barangan yg ingat..Polo,Timberland,Vercase,Bose,Gucci,Royal Dultion,Guess,
Lepas tu terus gi Manchester dan tidur kat rumah Muhalim..pada 27 mlm 28 dec......esoknya gi Factory Outlet...
Boundry factory outlet...agak menarik juga barangan ini dan harga yg ditawarkan juga agak menarik....dapat le beli kasut Timberland kat sini RRP £80 jatuh sampai £30
Lepas tu gi menginap kat Travelodge bayar dlm £ 23.....28 mlm 29.......pkl 10 baru gi stoke on trent.....
Friday, 19 December 2008
Basic Camera (BM)
1) Shutter Speed
2)Aperture
3)ISO
1) Shutter Speed
Shutter speed adalah Jangka masa pergerakkan iris kamera terbuka dan tertutup (On-Off)yang di kira 1/30,1/60,1/100 etc. Click here atau Click here.
- 1/30 (0.033 On-Off/sesaat ) adalah menunjukkan iris lambat tertutup
- 1/100 (0.01 On-Off/sesaat) adalah menunjukkan iris cepat tertutup.
2) Aperture
Aperture adalah bukaan iris kamera yang diukur dlm friction (f)..click here..
- f2.8 - bukaan iris adalah besar dan lebih cahaya akan masuk .
- f22 - bukaan iris adalah lebih kecil dan kurang cahaya akan masuk.
Dalam aperture ada Depth of Field (DOF). Click here.
- f2.8 akan menyebabkan cetek DOF (gambar depan terang dan belakang kabur)/(fast exposures atau cahaya yg banyak masuk dan menyebabkan gambar belakang terbakar/kabur)
- f22 akan menyebabkan luas/panjang DOF ( gambar akan terang depan dan belakang)/(slow exposures atau cahaya yg kurang masuk dan menyebabkan gambar belakang tidak terbakar/kabur)
Note : Apperture dan shutter speed mesti diselaraskan dgn betul.
- Apperture kecil tetapi slow shutter speed hanya akan menyebabkan cahaya akan banyak masuk disebabkan shutter speed yg lambat tertutup.
- Apperture besar tetapi fast shutter speed hanya akan menyebabkan cahaya akan sedikit masuk disebabkan shutter speed yg cepat tertutup.
- Terlalu banyak cahaya akan menyebabkan over exporsure
- Terlalu sikit cahaya akan menyebabkan under exporsure.
3) ISO
ISO adalah keadaan dimana memperbetulkan penggunakan kadar cahaya.
- ISO 100 = less sensitivity ( bagus utk cahaya matahari yg terang,tepi pantai,salji dll )
- ISO 200 = moderate ( sianghari dlm keadaan redup)
- ISO 400 = more sensitivity ( kadar cahaya yg kurang/suram spt dlm rumah/bilik )
Wednesday, 17 December 2008
What Is... Correct Exposure?
When you take a picture with your camera set on Auto mode, you are delegating responsibility for determining the correct exposure to the camera. Depending on the 'brain' (or programmed chip) inside your camera, the result may be pleasing or not to your satisfaction. But before you blame the camera for your lousy pictures, it pays to understand a bit what goes on behind the scenes when you press the shutter release button. In this article, we are going to look at what 'correct exposure' means.
Aperture and Shutter Speed
A correctly exposed image means that the right amount of light has exposed the image sensor. There are basically two ways your camera can ensure that: 1) open or close the aperture (by making the hole of the iris larger or smaller; or, as is becoming more and more common in point-and-shoot digicams, by using a neutral density filter to restrict the amount of light reaching the image sensor); 2) by deciding how long to leave the shutter open. A third way that we will also briefly look at is 3) by adjusting the ISO (basically boosting the light signal).
F2.8 | F4 | F5.6 | F8 |
When you (or your camera) uses a larger aperture (e.g. F2.8), the hole of the iris is larger and more light reaches the image sensor. Conversely, using a smaller aperture (e.g. F8) means that the hole of the iris is smaller and less light reaches the image sensor.
When a fast shutter speed is used (e.g. 1/1,000 sec.), the image sensor is exposed for only that small amount of time (i.e. 1/1,000 sec.). Conversely, when a slow shutter speed is used (e.g. 1/30 sec.; some cameras allow slow shutter speeds up to 30 sec. or more), the image sensor is exposed for that longer amount of time.
F8 |
1/30 |
Obtaining correct exposure is a setting combination of aperture and shutter speed. For example, your camera's light meter may have measured a need for an aperture of F8 at a shutter speed of 1/30 sec. If you press the shutter release button now, your camera will close up the iris to an aperture of F8 and open the shutter for only 1/30 sec. to obtain a correctly exposed picture. The amount of light that squeezes through that opening for that amount of time goes to expose the image sensor.
Complications
However, here is where the complications show up. If you are taking a picture of a serene and calm landscape, a setting of F8 at 1/30 sec. may be perfect! The small aperture gives you good depth of field ensuring that objects near and far are in focus. The slow shutter speed may be a problem if you are not using a tripod. A slow shutter speed means that any camera shake (even ever so slightly) will result in some blurring of the final image. A perfectly exposed blurred image!
Two things you've learned right here: 1) a small aperture increases depth of field; 2) a slow shutter speed requires a tripod, or other ways to hold the camera steady (e.g. by bracing yourself against something). |
But, what if you are trying to take a picture of your son flying a kite in the park? A slow shutter speed will not only result in a blurred image because of camera shake, but your son is moving fast across the camera and the resulting image is a perfectly exposed blurred image of your son. To 'freeze' fast action, you need to use a fast shutter speed. So, move the scene mode dial to 'Sports/Action' mode or, if your camera allows Shutter Priority mode, select that mode and set a shutter speed of 1/250 sec. To still obtain correct exposure, you also need to open up the aperture now.
Remember, you selected a faster shutter speed which means that the image sensor will now be exposed for a shorter time. If you don't open up the aperture but keep F8, then the image sensor receives less light (you maintained the same hole opening, but closed the shutter sooner), and the resulting image will be underexposed. In this case, you would have 'frozen' the action, but unexposed the image.
Shifting Aperture and Shutter Speed
F2.8 | F4 | F5.6 | F8 |
1/250 | 1/125 | 1/60 | 1/30 |
'Program Shift' is the term used to shift the aperture/shutter speed combination in tandem and still obtain correct exposure. As is illustrated above, if 1/30 sec. at F8 gives a correct exposure, then the three other aperture/shutter speed combinations shown also give the same correct exposure.
It is easy to understand when you consider that each aperture shift from F2.8 to F8 halves the amount of light reaching the image sensor (or, conversely, each aperture shift from F8 to F2.8 doubles the amount of light reaching the image sensor). Each shutter speed shift from 1/250s to 1/30s doubles the amount of light reaching the image sensor (or, conversely, each shutter speed shift from 1/30s to 1/250s halves the amount of light reaching the image sensor).
So, to maintain correct exposure, if you halve the one, you need to double the other. For example, if you halve the shutter speed from 1/30s to 1/60s, then you need to double the aperture from F8 to F5.6. Another way to look at this (depending on whether your main purpose is to shift aperture or shutter speed): double the aperture from F8 to F5.6, and you need to halve the shutter speed from 1/30s to 1/60s.
So the converse is also true, i.e. if you double the one you need to halve the other. In fact, say it anyway you like and the fact remains that if you halve the one (aperture or shutter speed), you'll need to double the other (shutter speed or aperture), And, if you double the one (aperture or shutter speed), you'll need to halve the other (shutter speed or aperture).
The Garden Hose Metaphor
Let's take an aside here to explain a bit more about aperture/shutter speed combination. Think of your garden water hose that you are using to fill a bucket with water. The diameter of the hose can be thought of as the aperture: the larger the diameter, the more water flows through. The length of time you leave the tap open can be thought of as the shutter speed: the longer you leave the tap open, the more water flows through. The speed of water flow can be thought of as the ISO: the faster the water flows through the hose, the more water flows through. The amount of water that collects into the bucket is the exposure.
Let's also pretend that you have two water hoses, one with a small diameter (our F8 aperture) and the other one with a larger diameter (aperture of F2.8).
To fill our bucket, we experiment with the smaller of the two hoses and find that we need to leave the tap open for 10 min (our shutter speed of 1/30 sec.).
So, here we have the following 'exposure setting':
- small hose & long time of 10 min.
- small aperture (F8) & slow shutter speed of 1/30 sec.
OK, so what happens if you use the same small hose but close the tap after, let's say, 3 min? Of course, it's clear that the bucket won't be full.
That is exactly what you did when you kept the same aperture and used a faster shutter speed. Not enough light came in to properly expose the image sensor ('the bucket is not full').
What do you have to do to fill up the bucket? Use the bigger hose! Aha, now with more water gushing out of your bigger hose, you can now close the tap earlier and still obtain a full bucket.
Similarly, to use a faster shutter speed, you need to use a larger aperture. Dial in F2.8 at 1/250 sec. and presto! you've just taken a perfectly exposed picture of your son frozen in motion.
Here is your new 'exposure setting':
- big hose & short time of 3 min
- large aperture (F2.8) & fast shutter speed of 1/250 sec.
Two more things you've learned right here: 1) a fast shutter speed will 'freeze' action; 2) the combination of shutter speed/aperture walks in opposite direction to each other: for a particular shutter speed/aperture combination required for correct exposure, if you now increase the shutter speed, you also need to open up the aperture; and if you use an even slower shutter speed, you will need to use an even smaller aperture. OK, the lingo we use can sometimes get confusing. Let's sort out 'increase', 'double', halve', 'open', 'close', etc.: - A shutter speed of 1/60s is faster than one of 1/30s. - An aperture of F8 is smaller than one of F5.6. |
Of course, depending on the specifications of your digital camera, you may have only a restricted set of aperture/shutter speed combinations to work with. For example, a common shutter speed range is 1 sec - 1/1,000 sec. and a common aperture range is F2.8 - F8.
That is the range of aperture/shutter speed you can play with to obtain correct exposure. If you can't select a combination for correct exposure using these ranges, then your image will be either over or underexposed.
Over and Underexposure
F1.8 | F2.8 | F4 | F5.6 | F8 |
1/500 | 1/250 | 1/125 | 1/60 | 1/30 |
Let's say, in our example above, you decide you want to use an even faster shutter speed of 1/500 sec. You now need to open your aperture up one more setting, to F1.8. But wait! Your camera may have a maximum aperture of F2.8, so you can't open it up more. If you go ahead and take the picture anyway, the result if an underexposed picture of your son frozen in motion.
Conversely, if you use a slower shutter speed, say 1/125 sec., but maintain the aperture of F2.8, now you have too much light and your picture is overexposed. For a correct exposure at 1/125 sec., you'll need to use an aperture of F4.
ISO
Where does ISO factor in all this? Remember, we used the garden hose metaphor to understand aperture/shutter speed combination required for correct exposure: small hose, longer time required to fill the bucket; to use a shorter time to fill the bucket, we needed to switch to a larger hose.
But what if we do not have a larger hose? We then increase the speed water flows thru the hose. We use the speed of water flow as a metaphor for ISO. Using the smaller hose, if we could increase the speed of water flow, we would then be able to close the tap earlier and still end up with a full bucket! Similarly, increase the ISO, and you've increased the sensitivity of the image sensor -- i.e. it now needs less light to register an image.
This is not a technically accurate metaphor since when we increase the ISO, we do not increase the speed of light!!! Instead, using a speaker metaphor, we 'crank up the sound volume'. In practical effect though, it looks like we increased the amount of light falling on the sensor, hence our 'speed water flows thru the hose' metaphor.
Suppose we meter a correct exposure at 1/30 sec., F8, at ISO 100. By increasing the ISO to 200, we can now use either a faster shutter speed at F8, or use a smaller aperture at 1/30 sec. and still obtain correct exposure. In our example above where we reached the limit of our camera's aperture range, we could have used a higher ISO to allow us to use 1/250 sec at F2.8.
Sounds great, isn't it? So, why don't we just use the highest ISO all the time? The answer is the dreaded 'noise'. The image sensor does not suddenly becomes more sensitive just because you tell it so by dialing in a higher ISO; it gains that increase in sensitivity at the cost of image quality [due to noise].
Think of an image sensor as comprised of a matrix of photosites, with a photo sensor at each photosite capturing light for one pixel of information. Say, each photosite captures one pixel of info. When you dial in a higher ISO, you are increasing the sensitivity of the image sensor. Unfortunately the image sensor now captures not only more light signal but also more noise (any signal not generated by the light from your subject). It is the ratio of light Signal to Noise (S/N ratio) that determines the noise in your image. The more light signal (as opposed to noise) your image sensor is able to capture, the less noise in your image. Generally, the smaller the image sensor the worse the noise is. Most consumer digital cameras suffer from noise problems at high ISOs. Some Digital SLR cameras have practically no noise at the higher ISOs; they, of course, use a rather large image sensor.
Cameras are often advertised with high ISO capability with the promise that this will allow you to capture low light images without using flash. But in cameras with tiny sensors, the use of high ISOs generates lots of noise in the pictures. To reduce the high amount of noise generated at high ISOs, cameras have noise reduction technology built-in. This is no panacea since the way noise reduction works is to smooth out the pixels, leading to loss of fine image detail.
The take away from this discussion is that you would want to always use a small ISO for the best image quality. In low light situations, you may have no choice but to use a higher ISO to allow you to capture a correctly exposed picture, but be aware that this comes at the price of increased noise (and hence decreased image quality). If you are not happy with the amount of noise in your pictures, consider moving up to a DSLR that has a low noise high ISO capability.
Common Complaints
Some of the most common complaints we hear from beginners are:
- Underexposure
- Overexposure
- Blurred Images
We already covered these above, but let's recap.
If your pictures are consistently coming out dark, then you are underexposing them. Remember, that setting your camera on Auto mode does not guarantee a correctly exposed picture if you ignore the warning the camera gives you when there's just not enough light. You need to increase the light source by using the on-camera flash, or an alternate light source, or move your subject to someplace brighter. Otherwise, an underexposed shot will result.
When there's too much light, and you cannot close the aperture enough and/or use a faster shutter speed, you end up with an overexposed image.
A blurred image results when you are either using a shutter speed that is too slow to avoid camera shake or too slow to 'freeze' motion. Use a faster shutter speed and adjust the aperture accordingly. The rule of thumb to avoiding camera shake while hand holding your camera is to use the reciprocal of the 35mm equivalent focal length in use. Say you zoom to 125mm (35mm equiv.), then use a shutter speed of 1/125 sec. or faster to avoid camera shake. To 'freeze' motion, a shutter speed faster than 1/60 sec. is usually necessary depending on the type and speed of the motion.
Exposure Bracketing
Sometimes, on one picture, you might have some areas of underexposure (usually in the shadows) and some areas of overexposure (we call them 'highlights'). If you meter for the shadows, the highlights will be 'blown' -- i.e. way overexposed. Conversely, if you meter for the highlights, the shadows will be way underexposed and you'll lose all details there.
One solution is to use exposure bracketing. Take one picture metering for the shadows; without moving the camera (hance the use of a tripod is mandatory here), take a second picture metering for the highlights; then, take a third picture with an average metering. Load all three images into your favorite image editing software and overlay one on top of another. By carefully removing the portions of the image that are not properly exposed (or, if you prefer, by carefully combining the portions that are correctly exposed), you end up with one image with correct exposure throughout.
Quick Guide to Understanding Shutter Speed
source : click hereIn a film camera, light travels through the lens opening (aperture) and past a shutter that opens and closes to allow light through to the film. While a digital camera doesn't have a mechanical shutter, it does use electronics to simulate this same process.
As light travels through the lens opening (aperture), the shutter opens and closes in a timed fashion to determine how long the image sensor ("film") gets exposed to a scene. A faster shutter speed, similar to blinking your eye more quickly, helps to reduce the amount of motion the cameras image sensor will capture. If the shutter stays open longer, it will allow more potential motion in the captured frame. Any movement during the "capture" process of a scene will end up as a blur. If it's camera movement then the entire photo will be blurred. If only the subject moves then only the subject will be blurred.
In order to capture blur-free "action" photographs (Sports is one example), you'll need to make sure the camera is using a high shutter speed. Typically a shutter speed setting of 1/125th of a second (shutter speeds are measured in fractions) is considered a "high" shutter speed, although the setting will depend on the speed of the action that you want to "freeze". Example: To capture a golf swing you might need to use a 1/500th speed shutter, while trying to capture kids playing basketball might only require a 1/125 or 1/250 shutter speed.
Important: Less light gets through to the imager (or film) as the shutter speed is increased, thus it's very difficult to use higher shutter speeds in lower light situations. There are ways to improve the speed of the shutter in these situations. One is to allow more light to pass through the lens (aperture setting), the other is to increase the ISO sensitivity of the imager.
Quick Guide to Understanding Aperture
Aperture Information
In the dictionary the term Aperture has this definition: "a usually adjustable opening in an optical instrument, such as a camera or telescope, that limits the amount of light passing through a lens...."
All lenses have an opening (Aperture) that allow light to pass through to the camera's image sensor (digital) or film. A larger aperture, (measured in fractions: i.e. f/3.5) allows more light to pass through while a smaller aperture (F/22) allows less light to pass through. The size of the aperture, or its range is determined by the lens itself. If you look around the front of the lens on your camera you might see "f-stop" numbers listed. An example may be: F3.8 - 5.4. These number tell you how large the opening of the lens can get at wide angle (F3.8) and at the telephoto setting (F5.4). In this example "zooming in" will allow less light to pass through compared to shooting the same scene at wide angle.
The smaller the F-stop (fraction) the larger the aperture (opening) of the lens can be. An F-stop of F2.0 lets in more light than a setting of F2.8, etc.. A lens with a maximum F-Stop of F2.8, F2.0, or F1.8 are considered fast. Most consumer priced cameras usually offer a maximum opening size of F3.5 or F3.8 which are fine for normal everyday shooting but not great when trying to reduce motion blur in lower light situations (school plays, indoor sports).
A larger lens opening (brighter lens) offers the following advantages:
- You'll be able to shoot more often with just natural lighting. This helps to reduce harsh shadows and red-eye caused by flash. A flash will still be needed when the scene is too dark, even for the bright lens.
- By allowing more light to pass through, the camera will be able to choose a slightly higher shutter speed which helps to reduce motion blur when shooting in less than ideal lighting conditions.
- A larger aperture (F/5.6 in photo example) helps to reduce "depth-of-field" (the amount of area from front to back that stays in focus) which makes for beautiful portraits (sharp subject, blurred background).
Quick Guide to Understanding ISO "Speed"
Written by Elizabeth Giargiari, Cameratown.com
A camera's ISO function sets the light sensitivity of the camera's image sensor (this is similar to the speed rating of FILM). ISO settings are often rated at 100, 200, or 400 but go as high as 800, 1600, and even 3200 on some advanced models. A lower ISO setting is used when capturing overly bright scenes, since it reduces the light sensitivy of the image sensor. This is ideal when shooting at the beach, on a ski slope, or under the midday sun. A higher ISO settings is often used when shooting under dimmer conditions (cloudy days, indoors, etc.) since it increases the light sensitivity of the image sensor. As brightness in a scene is decreased the camera tries to compensate by slowing the shutter speed which in turn lets in more light but increases the risk of motion blur. To prevent this, you can increase the ISO or sensitivity of the camera, which allows the camera to select a higher shutter speed, thus reducing motion blur.
Why not just use a higher ISO all the time?
While using a higher ISO setting is often needed to capture images with reduced blur in lower light, it also increases the noise level of the image (In film this is often referred to as "grain"). A lower ISO setting is preferred whenever possible since it helps to reduce this noise or grain.
ISO settings can also be used to help control the shutter speed of a camera while in automatic mode. In order to "freeze" motion in a scene, a camera needs to be able to use a higher shutter speed. By selecting a higher ISO you are allowing the camera to gather more light, this automatically forces the camera to select a higher (faster) shutter speed, which helps to reduce motion blur.
With film, the ISO rating is considered a "speed" rating. ISO 100 would be considered a slow film, while ISO 400 would be considered a faster film. Digital cameras obviously don't use film thus the ISO number corresponds to the image sensor's light sensitivity.
ISO 100: | Great for bright sunny days, at the beach or on the snow. Produces clean images that are great for enlargements. |
ISO 200: | Great for overcast daylight pictures (noise levels may increase, but in most cases not noticeably) |
ISO 400: | Great for lower lighting conditions (indoors, night time) or when you need to capture faster moving subjects in lower lighting conditions. In many consumer cameras, ISO 400 can make photos look very noisy in dark areas of the picture. The reason a higher speed ISO helps you capture fast moving subjects is because a higher ISO makes the image sensor of the camera more light sensitive. This forces the camera to use a higher shutter speed to compensate for the extra brightness, which in turn helps to "freeze" movement in the captured frame. |
In the above example I set my camera to a fixed shutter speed of 1/200th of a second and the aperture value to f/5.0. I then changed the ISO setting for each photograph to demonstrate how a faster ISO setting can make the camera more light sensitive. |
This example demonstrates increased noise (and depth-of-field) in a photograph as you increase the ISO. This example was shot using a Canon EOS-10D which is known to have very little noise at higher ISO's when compared to consumer level digital cameras. As you can see, the photograph on the far right has increased noise (grain) but is also a bit more in focus. I focused and zoomed the camera in on a tree (bottom left corner) which was about 80 feet in front of the garage (window). The higher ISO setting allows the image sensor of the camera to be more light sensitive. It also allows the camera to set a smaller aperture which helps it to achieve a greater depth of field. This is why the Window is a bit more in focus in the photo on the right. |