Leoda Studios http://leodastudios.com Memories in focus Fri, 06 Oct 2023 14:36:04 +0000 en-US hourly 1 https://wordpress.org/?v=6.5.2 https://i0.wp.com/leodastudios.com/wp-content/uploads/2023/10/cropped-Asset-3.png?fit=32%2C32 Leoda Studios http://leodastudios.com 32 32 230802194 Hello world! http://leodastudios.com/hello-world/?utm_source=rss&utm_medium=rss&utm_campaign=hello-world http://leodastudios.com/hello-world/#comments Fri, 06 Oct 2023 14:36:04 +0000 http://leodastudios.com/?p=1 Welcome to WordPress. This is your first post. Edit or delete it, then start writing!

The post Hello world! first appeared on Leoda Studios.

]]> Welcome to WordPress. This is your first post. Edit or delete it, then start writing!

The post Hello world! first appeared on Leoda Studios.

]]> http://leodastudios.com/hello-world/feed/ 1 1 Favorite Images of 2019: A Retrospective http://leodastudios.com/favorite-images-of-2019-a-retrospective/?utm_source=rss&utm_medium=rss&utm_campaign=favorite-images-of-2019-a-retrospective http://leodastudios.com/favorite-images-of-2019-a-retrospective/#respond Thu, 07 Nov 2019 14:15:58 +0000 http://oni/?p=331

Often searching out the graphical symmetry in chaos, while still maintaining the personality.

Photography is all about light. To let the camera “see” what you wish, you have tools controlling how much light reaches the camera sensor: the aperture and shutter speed controls. With too little light, your photo will be too dark. With too much light, it will be too bright. In both cases some details will be lost. You use aperture and shutter speed to achieve the proper exposure, while taking into account some important side-effects you should be aware about.

Same story happens in a photo camera. I am now probably risking to get a negative evaluation of my physics knowledge, which would unfortunately be quite fair… However, although the physical reasons might differ, the conceptual comparison seems to be quite adequate. When shooting with a photo camera, you let the sensor see the scene through a hole in the lens called aperture. The larger this hole is, the more light reaches the sensor. Normally the sensor is closed by a curtain called shutter. When shooting, the shutter opens, light reaches the sensor through the aperture hole, and then it closes again. The longer the opening lasts, the more light reaches the sensor. This time is called shutter speed.

Aperture and depth of field

As explained above, aperture defines how large the hole is through which the sensor sees the world. In photography, aperture is measured in units called F-numbers, F-stops or whatever else with this F-. Without going into details about what exactly this F- is (I would need to look it up myself to explain, physics again), all you really need to know is the following. The smaller the F-number is, the larger the aperture hole is, and the more light reaches the sensor. From now on by “large aperture” I will mean a large aperture hole (and a small F-number), and vice versa by “small aperture”.

Et doctus maiestatis scripserit mel. Ex sed atqui vulputate, soluta consetetur, quaestio gubergren ea sed deserunt.

Chris Jonson
Editor

As explained above, aperture defines how large the hole is through which the sensor sees the world. In photography, aperture is measured in units called F-numbers, F-stops or whatever else with this F-. Without going into details about what exactly this F- is (I would need to look it up myself to explain, physics again), all you really need to know is the following. The smaller the F-number is, the larger the aperture hole is, and the more light reaches the sensor. From now on by “large aperture” I will mean a large aperture hole (and a small F-number), and vice versa by “small aperture”. 

The post Favorite Images of 2019: A Retrospective first appeared on Leoda Studios.

]]> http://leodastudios.com/favorite-images-of-2019-a-retrospective/feed/ 0 331 Canon EOS R Full Frame Mirrorless Camera http://leodastudios.com/canon-eos-r-full-frame-mirrorless-camera/?utm_source=rss&utm_medium=rss&utm_campaign=canon-eos-r-full-frame-mirrorless-camera http://leodastudios.com/canon-eos-r-full-frame-mirrorless-camera/#respond Thu, 07 Nov 2019 14:12:53 +0000 http://oni/?p=328

Often searching out the graphical symmetry in chaos, while still maintaining the personality.

Photography is all about light. To let the camera “see” what you wish, you have tools controlling how much light reaches the camera sensor: the aperture and shutter speed controls. With too little light, your photo will be too dark. With too much light, it will be too bright. In both cases some details will be lost. You use aperture and shutter speed to achieve the proper exposure, while taking into account some important side-effects you should be aware about.

Same story happens in a photo camera. I am now probably risking to get a negative evaluation of my physics knowledge, which would unfortunately be quite fair… However, although the physical reasons might differ, the conceptual comparison seems to be quite adequate. When shooting with a photo camera, you let the sensor see the scene through a hole in the lens called aperture. The larger this hole is, the more light reaches the sensor. Normally the sensor is closed by a curtain called shutter. When shooting, the shutter opens, light reaches the sensor through the aperture hole, and then it closes again. The longer the opening lasts, the more light reaches the sensor. This time is called shutter speed.

Aperture and depth of field

As explained above, aperture defines how large the hole is through which the sensor sees the world. In photography, aperture is measured in units called F-numbers, F-stops or whatever else with this F-. Without going into details about what exactly this F- is (I would need to look it up myself to explain, physics again), all you really need to know is the following. The smaller the F-number is, the larger the aperture hole is, and the more light reaches the sensor. From now on by “large aperture” I will mean a large aperture hole (and a small F-number), and vice versa by “small aperture”.

Et doctus maiestatis scripserit mel. Ex sed atqui vulputate, soluta consetetur, quaestio gubergren ea sed deserunt.

Chris Jonson
Editor

As explained above, aperture defines how large the hole is through which the sensor sees the world. In photography, aperture is measured in units called F-numbers, F-stops or whatever else with this F-. Without going into details about what exactly this F- is (I would need to look it up myself to explain, physics again), all you really need to know is the following. The smaller the F-number is, the larger the aperture hole is, and the more light reaches the sensor. From now on by “large aperture” I will mean a large aperture hole (and a small F-number), and vice versa by “small aperture”. 

The post Canon EOS R Full Frame Mirrorless Camera first appeared on Leoda Studios.

]]> http://leodastudios.com/canon-eos-r-full-frame-mirrorless-camera/feed/ 0 328 Exploring Chichen Itza: Mexico’s Wonder Of The World http://leodastudios.com/exploring-chichen-itza-mexicos-wonder-of-the-world/?utm_source=rss&utm_medium=rss&utm_campaign=exploring-chichen-itza-mexicos-wonder-of-the-world http://leodastudios.com/exploring-chichen-itza-mexicos-wonder-of-the-world/#respond Thu, 07 Nov 2019 13:54:04 +0000 http://oni/?p=322

Often searching out the graphical symmetry in chaos, while still maintaining the personality.

Photography is all about light. To let the camera “see” what you wish, you have tools controlling how much light reaches the camera sensor: the aperture and shutter speed controls. With too little light, your photo will be too dark. With too much light, it will be too bright. In both cases some details will be lost. You use aperture and shutter speed to achieve the proper exposure, while taking into account some important side-effects you should be aware about.

Same story happens in a photo camera. I am now probably risking to get a negative evaluation of my physics knowledge, which would unfortunately be quite fair… However, although the physical reasons might differ, the conceptual comparison seems to be quite adequate. When shooting with a photo camera, you let the sensor see the scene through a hole in the lens called aperture. The larger this hole is, the more light reaches the sensor. Normally the sensor is closed by a curtain called shutter. When shooting, the shutter opens, light reaches the sensor through the aperture hole, and then it closes again. The longer the opening lasts, the more light reaches the sensor. This time is called shutter speed.

Aperture and depth of field

As explained above, aperture defines how large the hole is through which the sensor sees the world. In photography, aperture is measured in units called F-numbers, F-stops or whatever else with this F-. Without going into details about what exactly this F- is (I would need to look it up myself to explain, physics again), all you really need to know is the following. The smaller the F-number is, the larger the aperture hole is, and the more light reaches the sensor. From now on by “large aperture” I will mean a large aperture hole (and a small F-number), and vice versa by “small aperture”.

Et doctus maiestatis scripserit mel. Ex sed atqui vulputate, soluta consetetur, quaestio gubergren ea sed deserunt.

Chris Jonson
Editor

As explained above, aperture defines how large the hole is through which the sensor sees the world. In photography, aperture is measured in units called F-numbers, F-stops or whatever else with this F-. Without going into details about what exactly this F- is (I would need to look it up myself to explain, physics again), all you really need to know is the following. The smaller the F-number is, the larger the aperture hole is, and the more light reaches the sensor. From now on by “large aperture” I will mean a large aperture hole (and a small F-number), and vice versa by “small aperture”. 

The post Exploring Chichen Itza: Mexico’s Wonder Of The World first appeared on Leoda Studios.

]]> http://leodastudios.com/exploring-chichen-itza-mexicos-wonder-of-the-world/feed/ 0 322 Quote Post http://leodastudios.com/quote-post/?utm_source=rss&utm_medium=rss&utm_campaign=quote-post http://leodastudios.com/quote-post/#respond Thu, 07 Nov 2019 13:26:13 +0000 http://oni/?p=319

Often searching out the graphical symmetry in chaos, while still maintaining the personality.

Photography is all about light. To let the camera “see” what you wish, you have tools controlling how much light reaches the camera sensor: the aperture and shutter speed controls. With too little light, your photo will be too dark. With too much light, it will be too bright. In both cases some details will be lost. You use aperture and shutter speed to achieve the proper exposure, while taking into account some important side-effects you should be aware about.

Same story happens in a photo camera. I am now probably risking to get a negative evaluation of my physics knowledge, which would unfortunately be quite fair… However, although the physical reasons might differ, the conceptual comparison seems to be quite adequate. When shooting with a photo camera, you let the sensor see the scene through a hole in the lens called aperture. The larger this hole is, the more light reaches the sensor. Normally the sensor is closed by a curtain called shutter. When shooting, the shutter opens, light reaches the sensor through the aperture hole, and then it closes again. The longer the opening lasts, the more light reaches the sensor. This time is called shutter speed.

Aperture and depth of field

As explained above, aperture defines how large the hole is through which the sensor sees the world. In photography, aperture is measured in units called F-numbers, F-stops or whatever else with this F-. Without going into details about what exactly this F- is (I would need to look it up myself to explain, physics again), all you really need to know is the following. The smaller the F-number is, the larger the aperture hole is, and the more light reaches the sensor. From now on by “large aperture” I will mean a large aperture hole (and a small F-number), and vice versa by “small aperture”.

Et doctus maiestatis scripserit mel. Ex sed atqui vulputate, soluta consetetur, quaestio gubergren ea sed deserunt.

Chris Jonson
Editor

As explained above, aperture defines how large the hole is through which the sensor sees the world. In photography, aperture is measured in units called F-numbers, F-stops or whatever else with this F-. Without going into details about what exactly this F- is (I would need to look it up myself to explain, physics again), all you really need to know is the following. The smaller the F-number is, the larger the aperture hole is, and the more light reaches the sensor. From now on by “large aperture” I will mean a large aperture hole (and a small F-number), and vice versa by “small aperture”. 

The post Quote Post first appeared on Leoda Studios.

]]> http://leodastudios.com/quote-post/feed/ 0 319 Standart Post http://leodastudios.com/test1/?utm_source=rss&utm_medium=rss&utm_campaign=test1 http://leodastudios.com/test1/#respond Wed, 06 Nov 2019 14:17:59 +0000 http://oni/?p=301

Often searching out the graphical symmetry in chaos, while still maintaining the personality.

Photography is all about light. To let the camera “see” what you wish, you have tools controlling how much light reaches the camera sensor: the aperture and shutter speed controls. With too little light, your photo will be too dark. With too much light, it will be too bright. In both cases some details will be lost. You use aperture and shutter speed to achieve the proper exposure, while taking into account some important side-effects you should be aware about.

Same story happens in a photo camera. I am now probably risking to get a negative evaluation of my physics knowledge, which would unfortunately be quite fair… However, although the physical reasons might differ, the conceptual comparison seems to be quite adequate. When shooting with a photo camera, you let the sensor see the scene through a hole in the lens called aperture. The larger this hole is, the more light reaches the sensor. Normally the sensor is closed by a curtain called shutter. When shooting, the shutter opens, light reaches the sensor through the aperture hole, and then it closes again. The longer the opening lasts, the more light reaches the sensor. This time is called shutter speed.

Aperture and depth of field

As explained above, aperture defines how large the hole is through which the sensor sees the world. In photography, aperture is measured in units called F-numbers, F-stops or whatever else with this F-. Without going into details about what exactly this F- is (I would need to look it up myself to explain, physics again), all you really need to know is the following. The smaller the F-number is, the larger the aperture hole is, and the more light reaches the sensor. From now on by “large aperture” I will mean a large aperture hole (and a small F-number), and vice versa by “small aperture”.

Et doctus maiestatis scripserit mel. Ex sed atqui vulputate, soluta consetetur, quaestio gubergren ea sed deserunt.

Chris Jonson
Editor

As explained above, aperture defines how large the hole is through which the sensor sees the world. In photography, aperture is measured in units called F-numbers, F-stops or whatever else with this F-. Without going into details about what exactly this F- is (I would need to look it up myself to explain, physics again), all you really need to know is the following. The smaller the F-number is, the larger the aperture hole is, and the more light reaches the sensor. From now on by “large aperture” I will mean a large aperture hole (and a small F-number), and vice versa by “small aperture”. 

The post Standart Post first appeared on Leoda Studios.

]]> http://leodastudios.com/test1/feed/ 0 301 The Photographer Platform http://leodastudios.com/the-photographer-platform/?utm_source=rss&utm_medium=rss&utm_campaign=the-photographer-platform http://leodastudios.com/the-photographer-platform/#respond Wed, 06 Nov 2019 13:58:03 +0000 http://oni/?p=295

Often searching out the graphical symmetry in chaos, while still maintaining the personality.

Photography is all about light. To let the camera “see” what you wish, you have tools controlling how much light reaches the camera sensor: the aperture and shutter speed controls. With too little light, your photo will be too dark. With too much light, it will be too bright. In both cases some details will be lost. You use aperture and shutter speed to achieve the proper exposure, while taking into account some important side-effects you should be aware about.

Same story happens in a photo camera. I am now probably risking to get a negative evaluation of my physics knowledge, which would unfortunately be quite fair… However, although the physical reasons might differ, the conceptual comparison seems to be quite adequate. When shooting with a photo camera, you let the sensor see the scene through a hole in the lens called aperture. The larger this hole is, the more light reaches the sensor. Normally the sensor is closed by a curtain called shutter. When shooting, the shutter opens, light reaches the sensor through the aperture hole, and then it closes again. The longer the opening lasts, the more light reaches the sensor. This time is called shutter speed.

Aperture and depth of field

As explained above, aperture defines how large the hole is through which the sensor sees the world. In photography, aperture is measured in units called F-numbers, F-stops or whatever else with this F-. Without going into details about what exactly this F- is (I would need to look it up myself to explain, physics again), all you really need to know is the following. The smaller the F-number is, the larger the aperture hole is, and the more light reaches the sensor. From now on by “large aperture” I will mean a large aperture hole (and a small F-number), and vice versa by “small aperture”.

Et doctus maiestatis scripserit mel. Ex sed atqui vulputate, soluta consetetur, quaestio gubergren ea sed deserunt.

Chris Jonson
Editor

As explained above, aperture defines how large the hole is through which the sensor sees the world. In photography, aperture is measured in units called F-numbers, F-stops or whatever else with this F-. Without going into details about what exactly this F- is (I would need to look it up myself to explain, physics again), all you really need to know is the following. The smaller the F-number is, the larger the aperture hole is, and the more light reaches the sensor. From now on by “large aperture” I will mean a large aperture hole (and a small F-number), and vice versa by “small aperture”. 

The post The Photographer Platform first appeared on Leoda Studios.

]]> http://leodastudios.com/the-photographer-platform/feed/ 0 295 Link Post http://leodastudios.com/link-post/?utm_source=rss&utm_medium=rss&utm_campaign=link-post http://leodastudios.com/link-post/#respond Wed, 06 Nov 2019 12:14:03 +0000 http://oni/?p=285

Often searching out the graphical symmetry in chaos, while still maintaining the personality.

Photography is all about light. To let the camera “see” what you wish, you have tools controlling how much light reaches the camera sensor: the aperture and shutter speed controls. With too little light, your photo will be too dark. With too much light, it will be too bright. In both cases some details will be lost. You use aperture and shutter speed to achieve the proper exposure, while taking into account some important side-effects you should be aware about.

Same story happens in a photo camera. I am now probably risking to get a negative evaluation of my physics knowledge, which would unfortunately be quite fair… However, although the physical reasons might differ, the conceptual comparison seems to be quite adequate. When shooting with a photo camera, you let the sensor see the scene through a hole in the lens called aperture. The larger this hole is, the more light reaches the sensor. Normally the sensor is closed by a curtain called shutter. When shooting, the shutter opens, light reaches the sensor through the aperture hole, and then it closes again. The longer the opening lasts, the more light reaches the sensor. This time is called shutter speed.

Aperture and depth of field

As explained above, aperture defines how large the hole is through which the sensor sees the world. In photography, aperture is measured in units called F-numbers, F-stops or whatever else with this F-. Without going into details about what exactly this F- is (I would need to look it up myself to explain, physics again), all you really need to know is the following. The smaller the F-number is, the larger the aperture hole is, and the more light reaches the sensor. From now on by “large aperture” I will mean a large aperture hole (and a small F-number), and vice versa by “small aperture”.

Et doctus maiestatis scripserit mel. Ex sed atqui vulputate, soluta consetetur, quaestio gubergren ea sed deserunt.

Chris Jonson
Editor

As explained above, aperture defines how large the hole is through which the sensor sees the world. In photography, aperture is measured in units called F-numbers, F-stops or whatever else with this F-. Without going into details about what exactly this F- is (I would need to look it up myself to explain, physics again), all you really need to know is the following. The smaller the F-number is, the larger the aperture hole is, and the more light reaches the sensor. From now on by “large aperture” I will mean a large aperture hole (and a small F-number), and vice versa by “small aperture”. 

The post Link Post first appeared on Leoda Studios.

]]> http://leodastudios.com/link-post/feed/ 0 285 The Desolate Beauty of Greenland http://leodastudios.com/the-desolate-beauty-of-greenland/?utm_source=rss&utm_medium=rss&utm_campaign=the-desolate-beauty-of-greenland http://leodastudios.com/the-desolate-beauty-of-greenland/#comments Wed, 06 Nov 2019 07:38:35 +0000 http://oni/?p=266

Often searching out the graphical symmetry in chaos, while still maintaining the personality.

Photography is all about light. To let the camera “see” what you wish, you have tools controlling how much light reaches the camera sensor: the aperture and shutter speed controls. With too little light, your photo will be too dark. With too much light, it will be too bright. In both cases some details will be lost. You use aperture and shutter speed to achieve the proper exposure, while taking into account some important side-effects you should be aware about.

Same story happens in a photo camera. I am now probably risking to get a negative evaluation of my physics knowledge, which would unfortunately be quite fair… However, although the physical reasons might differ, the conceptual comparison seems to be quite adequate. When shooting with a photo camera, you let the sensor see the scene through a hole in the lens called aperture. The larger this hole is, the more light reaches the sensor. Normally the sensor is closed by a curtain called shutter. When shooting, the shutter opens, light reaches the sensor through the aperture hole, and then it closes again. The longer the opening lasts, the more light reaches the sensor. This time is called shutter speed.

Aperture and depth of field

As explained above, aperture defines how large the hole is through which the sensor sees the world. In photography, aperture is measured in units called F-numbers, F-stops or whatever else with this F-. Without going into details about what exactly this F- is (I would need to look it up myself to explain, physics again), all you really need to know is the following. The smaller the F-number is, the larger the aperture hole is, and the more light reaches the sensor. From now on by “large aperture” I will mean a large aperture hole (and a small F-number), and vice versa by “small aperture”.

Et doctus maiestatis scripserit mel. Ex sed atqui vulputate, soluta consetetur, quaestio gubergren ea sed deserunt.

Chris Jonson
Editor

As explained above, aperture defines how large the hole is through which the sensor sees the world. In photography, aperture is measured in units called F-numbers, F-stops or whatever else with this F-. Without going into details about what exactly this F- is (I would need to look it up myself to explain, physics again), all you really need to know is the following. The smaller the F-number is, the larger the aperture hole is, and the more light reaches the sensor. From now on by “large aperture” I will mean a large aperture hole (and a small F-number), and vice versa by “small aperture”. 

The post The Desolate Beauty of Greenland first appeared on Leoda Studios.

]]> http://leodastudios.com/the-desolate-beauty-of-greenland/feed/ 3 266 Let Them Know Why http://leodastudios.com/let-them-know-why/?utm_source=rss&utm_medium=rss&utm_campaign=let-them-know-why http://leodastudios.com/let-them-know-why/#respond Tue, 05 Nov 2019 13:23:28 +0000 http://oni/?p=431

Often searching out the graphical symmetry in chaos, while still maintaining the personality.

Photography is all about light. To let the camera “see” what you wish, you have tools controlling how much light reaches the camera sensor: the aperture and shutter speed controls. With too little light, your photo will be too dark. With too much light, it will be too bright. In both cases some details will be lost. You use aperture and shutter speed to achieve the proper exposure, while taking into account some important side-effects you should be aware about.

Same story happens in a photo camera. I am now probably risking to get a negative evaluation of my physics knowledge, which would unfortunately be quite fair… However, although the physical reasons might differ, the conceptual comparison seems to be quite adequate. When shooting with a photo camera, you let the sensor see the scene through a hole in the lens called aperture. The larger this hole is, the more light reaches the sensor. Normally the sensor is closed by a curtain called shutter. When shooting, the shutter opens, light reaches the sensor through the aperture hole, and then it closes again. The longer the opening lasts, the more light reaches the sensor. This time is called shutter speed.

Aperture and depth of field

As explained above, aperture defines how large the hole is through which the sensor sees the world. In photography, aperture is measured in units called F-numbers, F-stops or whatever else with this F-. Without going into details about what exactly this F- is (I would need to look it up myself to explain, physics again), all you really need to know is the following. The smaller the F-number is, the larger the aperture hole is, and the more light reaches the sensor. From now on by “large aperture” I will mean a large aperture hole (and a small F-number), and vice versa by “small aperture”.

Et doctus maiestatis scripserit mel. Ex sed atqui vulputate, soluta consetetur, quaestio gubergren ea sed deserunt.

Chris Jonson
Editor

As explained above, aperture defines how large the hole is through which the sensor sees the world. In photography, aperture is measured in units called F-numbers, F-stops or whatever else with this F-. Without going into details about what exactly this F- is (I would need to look it up myself to explain, physics again), all you really need to know is the following. The smaller the F-number is, the larger the aperture hole is, and the more light reaches the sensor. From now on by “large aperture” I will mean a large aperture hole (and a small F-number), and vice versa by “small aperture”. 

The post Let Them Know Why first appeared on Leoda Studios.

]]> http://leodastudios.com/let-them-know-why/feed/ 0 431