The document discusses key principles of photo composition including the rule of thirds, simplicity, balance, lines, symmetry and patterns, viewpoint, depth, framing, and cropping.
Photoshop allows for creative editing and manipulation of digital images. Some basic principles for effective composition include following the rule of thirds for framing subjects, maintaining simplicity and balance in the image, and using lines to guide the viewer's eye. Merging multiple images together can also be done in Photoshop.
The document discusses several rules of photography including the rule of thirds, framing, leading lines, balancing elements, symmetry and patterns, and depth of field. The rule of thirds involves dividing photos into thirds both horizontally and vertically to place important elements. Framing focuses the viewer's attention using frames like doors or hallways. Leading lines guide the eye through the photo along lines like hallways. Balancing elements balances the weight of the subject with other objects. Symmetry and patterns make interesting compositions, especially when broken. Depth of field refers to the distance between the closest and furthest focused objects in an image. Examples are provided to illustrate each rule.
This document provides guidance on photographic techniques including rule of thirds composition, focusing on one subject of interest, and using different camera angles such as low, high, and medium. It also covers portrait photography, using effects like exaggeration and reflection, manipulating depth of field, and macro close-up photography.
This document discusses key principles of photo composition including balance, rule of thirds, framing, cropping, viewpoint, lines, symmetry and patterns, background, depth, and simplicity. These principles help photographers create visually appealing photos by strategically placing subjects and using design elements.
The document discusses different types of symmetry found across nature, art, architecture, and music. It provides examples of line symmetry seen in dividing objects like leaves and butterflies in half, with each half being a mirror image. Rotational symmetry is explored through examples like snowflakes that divide into six equal parts. Specific works are highlighted that demonstrate symmetry in drawings, paintings, sculptures, architecture, arts, and symbols. The document examines symmetry as an organizing visual principle.
This document discusses key photographic elements including rule of thirds, balance, symmetry and patterns, background, depth, simplicity, framing, view point, lines, and cropping that are important considerations when taking photos.
Modal verbs are auxiliary verbs that provide additional meaning to the main verb of a sentence. They include can, could, may, might, must, shall, should, will, would. Modal verbs do not conjugate or take tense and do not have infinitives or -ing forms. They are followed by an infinitive verb without "to." Modal verbs express concepts like permission, possibility, obligation, advice. They can have single or double meanings depending on context. Modals in the past are used with "have" to refer to past situations.
Symmetry is the quality of being made up of exactly similar parts facing each other or around an axis. This document discusses symmetry in shapes like circles and squares, letters like A and E, and natural forms found in animals, plants, crystals and more. It concludes by suggesting practicing identifying symmetry in various objects.
Photoshop allows for creative editing and manipulation of digital images. Some basic principles for effective composition include following the rule of thirds for framing subjects, maintaining simplicity and balance in the image, and using lines to guide the viewer's eye. Merging multiple images together can also be done in Photoshop.
The document discusses several rules of photography including the rule of thirds, framing, leading lines, balancing elements, symmetry and patterns, and depth of field. The rule of thirds involves dividing photos into thirds both horizontally and vertically to place important elements. Framing focuses the viewer's attention using frames like doors or hallways. Leading lines guide the eye through the photo along lines like hallways. Balancing elements balances the weight of the subject with other objects. Symmetry and patterns make interesting compositions, especially when broken. Depth of field refers to the distance between the closest and furthest focused objects in an image. Examples are provided to illustrate each rule.
This document provides guidance on photographic techniques including rule of thirds composition, focusing on one subject of interest, and using different camera angles such as low, high, and medium. It also covers portrait photography, using effects like exaggeration and reflection, manipulating depth of field, and macro close-up photography.
This document discusses key principles of photo composition including balance, rule of thirds, framing, cropping, viewpoint, lines, symmetry and patterns, background, depth, and simplicity. These principles help photographers create visually appealing photos by strategically placing subjects and using design elements.
The document discusses different types of symmetry found across nature, art, architecture, and music. It provides examples of line symmetry seen in dividing objects like leaves and butterflies in half, with each half being a mirror image. Rotational symmetry is explored through examples like snowflakes that divide into six equal parts. Specific works are highlighted that demonstrate symmetry in drawings, paintings, sculptures, architecture, arts, and symbols. The document examines symmetry as an organizing visual principle.
This document discusses key photographic elements including rule of thirds, balance, symmetry and patterns, background, depth, simplicity, framing, view point, lines, and cropping that are important considerations when taking photos.
Modal verbs are auxiliary verbs that provide additional meaning to the main verb of a sentence. They include can, could, may, might, must, shall, should, will, would. Modal verbs do not conjugate or take tense and do not have infinitives or -ing forms. They are followed by an infinitive verb without "to." Modal verbs express concepts like permission, possibility, obligation, advice. They can have single or double meanings depending on context. Modals in the past are used with "have" to refer to past situations.
Symmetry is the quality of being made up of exactly similar parts facing each other or around an axis. This document discusses symmetry in shapes like circles and squares, letters like A and E, and natural forms found in animals, plants, crystals and more. It concludes by suggesting practicing identifying symmetry in various objects.
This document contains several photos demonstrating different photographic techniques including symmetry, attention to different types of lines, rule of thirds composition, diagonal perspective, movement, natural framing, and alternative angles. The photos provide examples of these techniques applied to subjects like carpets, windows, building details, landscapes, and portraits.
Symmetry in nature, architecture and artmepetrescu
Symmetry is found throughout nature, architecture, and art. Flowers often exhibit vertical axes of symmetry, with their petals arranged identically on both sides of the axis. Traditional Romanian architecture like gates and monuments also showcase symmetry. Symmetry is a property where objects are at equal distance from a central point, line, or plane, and it can be observed in many everyday items from flowers to buildings to artwork.
The document discusses different types of symmetry including line symmetry, bilateral symmetry, rotational symmetry, and point symmetry. It provides examples to illustrate each type and analyzes the symmetry of various objects like buildings, insects, and human faces. Plastic surgeons study facial symmetry, as faces that are closer to perfectly symmetrical are often considered more beautiful.
The document discusses symmetry in nature, architecture, and art. It defines symmetry as a spatial relationship where one half of a shape is the mirror image of the other half. There are different types of symmetrical lines including horizontal, vertical, and diagonal. Symmetry can be classified as axial or radial depending on whether equal elements are equidistant from a central axis or point.
This document discusses different types of symmetry, including line symmetry and rotational symmetry. It provides examples of line symmetry in letters of the alphabet and examples of rotational symmetry in shapes like triangles, squares, and pentagons. It also discusses symmetry in architecture, flags, and natural phenomena. Symmetry is a fundamental organizing principle in nature and art that involves preserving certain properties when an object is transformed in some way.
Butterfly Symmetry Power Point Presentationsmerris
I used this power point presentation to teach the students about the meaning
of symmetry through defining it and showing examples/non-examples of it.
Gaining a better knowledge of symmetry helped the students to apply symmetry
to art (i.e. their butterfly symmetry).
Symmetry is found throughout nature and the environment. Many natural phenomena exhibit symmetrical patterns, from snowflakes to plant structures. The underlying mathematical principles of symmetry are reflected in forms found across biology, chemistry, and physics.
This document provides instructions for a photography project involving line and symmetry. It outlines four parts to the project:
1. Using symmetrical balance with strong diagonal lines in 5 photos taken at school and outside of school.
2. Exploring symmetry by taking photos that have mirror image balance on both sides.
3. Capturing radial symmetry found in living things or man-made structures in 5 more photos.
4. Finding implied lines where the eye follows shapes and forms without a literal line being present.
The final assignment will involve creating a mirrored reflection tessellation using multiple horizontal and vertical flips of photos.
The document discusses symmetry operations and point groups in molecules. It defines five basic symmetry operations: identity, n-fold rotation, reflection, inversion, and improper n-fold rotation. Point groups describe the symmetry elements and operations in a molecule. There are 32 possible point groups that molecules can belong to depending on their specific symmetry properties. The document provides examples of molecules and their corresponding point groups.
Radial symmetry is a type of balance where parts of an object are arranged around a central point. There are three types of balance: radial symmetry, mirror/bilateral symmetry, and asymmetry. Radial symmetry is seen in both natural objects like snowflakes and human-made objects like mandalas, kaleidoscopes, and rose windows in cathedrals. To create radial symmetry, a circle is divided into equal sections and the same pattern is repeated in each section.
The document discusses different types of symmetry, including line symmetry and rotational symmetry. It provides examples of symmetry in letters, shapes, nature, road signs, monuments, flags, math symbols, tattoos, religious symbols, words, and objects. Specific examples are given to illustrate line symmetry and rotational symmetry, along with the order of rotational symmetry. The document concludes with a review of the concepts covered.
The document provides information about creating photographic essays. It discusses that a photo essay uses a series of photographs to tell a story or evoke emotions in the viewer. It can include photographs alone or with captions or text. The document then discusses choosing a theme, structuring the essay with a logical sequence of photos like establishing shots, detail shots, and a clinching final photo. It also discusses using narrative shots like portraits and actions shots. Finally, it provides examples of photo essays and discusses achieving visual unity between the photos.
This document contains several photos demonstrating different photographic techniques including symmetry, attention to different types of lines, rule of thirds composition, diagonal perspective, movement, natural framing, and alternative angles. The photos provide examples of these techniques applied to subjects like carpets, windows, building details, landscapes, and portraits.
Symmetry in nature, architecture and artmepetrescu
Symmetry is found throughout nature, architecture, and art. Flowers often exhibit vertical axes of symmetry, with their petals arranged identically on both sides of the axis. Traditional Romanian architecture like gates and monuments also showcase symmetry. Symmetry is a property where objects are at equal distance from a central point, line, or plane, and it can be observed in many everyday items from flowers to buildings to artwork.
The document discusses different types of symmetry including line symmetry, bilateral symmetry, rotational symmetry, and point symmetry. It provides examples to illustrate each type and analyzes the symmetry of various objects like buildings, insects, and human faces. Plastic surgeons study facial symmetry, as faces that are closer to perfectly symmetrical are often considered more beautiful.
The document discusses symmetry in nature, architecture, and art. It defines symmetry as a spatial relationship where one half of a shape is the mirror image of the other half. There are different types of symmetrical lines including horizontal, vertical, and diagonal. Symmetry can be classified as axial or radial depending on whether equal elements are equidistant from a central axis or point.
This document discusses different types of symmetry, including line symmetry and rotational symmetry. It provides examples of line symmetry in letters of the alphabet and examples of rotational symmetry in shapes like triangles, squares, and pentagons. It also discusses symmetry in architecture, flags, and natural phenomena. Symmetry is a fundamental organizing principle in nature and art that involves preserving certain properties when an object is transformed in some way.
Butterfly Symmetry Power Point Presentationsmerris
I used this power point presentation to teach the students about the meaning
of symmetry through defining it and showing examples/non-examples of it.
Gaining a better knowledge of symmetry helped the students to apply symmetry
to art (i.e. their butterfly symmetry).
Symmetry is found throughout nature and the environment. Many natural phenomena exhibit symmetrical patterns, from snowflakes to plant structures. The underlying mathematical principles of symmetry are reflected in forms found across biology, chemistry, and physics.
This document provides instructions for a photography project involving line and symmetry. It outlines four parts to the project:
1. Using symmetrical balance with strong diagonal lines in 5 photos taken at school and outside of school.
2. Exploring symmetry by taking photos that have mirror image balance on both sides.
3. Capturing radial symmetry found in living things or man-made structures in 5 more photos.
4. Finding implied lines where the eye follows shapes and forms without a literal line being present.
The final assignment will involve creating a mirrored reflection tessellation using multiple horizontal and vertical flips of photos.
The document discusses symmetry operations and point groups in molecules. It defines five basic symmetry operations: identity, n-fold rotation, reflection, inversion, and improper n-fold rotation. Point groups describe the symmetry elements and operations in a molecule. There are 32 possible point groups that molecules can belong to depending on their specific symmetry properties. The document provides examples of molecules and their corresponding point groups.
Radial symmetry is a type of balance where parts of an object are arranged around a central point. There are three types of balance: radial symmetry, mirror/bilateral symmetry, and asymmetry. Radial symmetry is seen in both natural objects like snowflakes and human-made objects like mandalas, kaleidoscopes, and rose windows in cathedrals. To create radial symmetry, a circle is divided into equal sections and the same pattern is repeated in each section.
The document discusses different types of symmetry, including line symmetry and rotational symmetry. It provides examples of symmetry in letters, shapes, nature, road signs, monuments, flags, math symbols, tattoos, religious symbols, words, and objects. Specific examples are given to illustrate line symmetry and rotational symmetry, along with the order of rotational symmetry. The document concludes with a review of the concepts covered.
The document provides information about creating photographic essays. It discusses that a photo essay uses a series of photographs to tell a story or evoke emotions in the viewer. It can include photographs alone or with captions or text. The document then discusses choosing a theme, structuring the essay with a logical sequence of photos like establishing shots, detail shots, and a clinching final photo. It also discusses using narrative shots like portraits and actions shots. Finally, it provides examples of photo essays and discusses achieving visual unity between the photos.