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Oxygen release to body cells (UEB Contracted)
This is an image of oxygen release to body cells. It is a multi-page image set on two pages, a key and then the diagram page. A locator dot and title are shown on both pages. These must always be at the top left of the page when the image is the right way up. Key to oxygen release to body cells. This page shows the symbols and textures used on the diagram page. A sample of the texture is on the left with its description on the right. Oxygen release to body cells. This diagram shows the principle of the movement of oxygen and carbon dioxide in body cells in relation to a capillary. The diagram is surrounded by an image border. A capillary goes from the bottom left of the diagram up to the top right side. There are circular red blood cells in the capillary. As they move along the capillary from left to right, oxygen from the red blood cell diffuses into the body cells, and then carbon dioxide diffuses from the body cells into the red blood cell.
Oxygen release to body cells (UEB Uncontracted)
This is an image of oxygen release to body cells. It is a multi-page image set on two pages, a key and then the diagram page. A locator dot and title are shown on both pages. These must always be at the top left of the page when the image is the right way up. Key to oxygen release to body cells. This page shows the symbols and textures used on the diagram page. A sample of the texture is on the left with its description on the right. Oxygen release to body cells. This diagram shows the principle of the movement of oxygen and carbon dioxide in body cells in relation to a capillary. The diagram is surrounded by an image border. A capillary goes from the bottom left of the diagram up to the top right side. There are circular red blood cells in the capillary. As they move along the capillary from left to right, oxygen from the red blood cell diffuses into the body cells, and then carbon dioxide diffuses from the body cells into the red blood cell.
Periodic table overview (Large Print)
This is an overview to the periodic table with an accompanying key. It is a multi-page image set on two pages. There is a locator dot shown, which will be at the top left of the page when the image is the correct way up. The table shows element categories, groups and periods. Key to periodic table overvw - The textures/colours used on the overview to the periodic table of elements are shown in two columns. The texture/colour examples representing the element categories are labelled to the right. The same colours are also used on the full-sized periodic table mentioned above. Periodic table overvw The vertical columns show the groups (families) of elements. The groups are numbered across the top of the page. A horizontal row in the table is a period. The periods are numbered at the left of the page. In this arrangement of the periodic table, the lanthanoids and actinoids (the f-block) are separated from the other elements and are shown stretching across the bottom of the page. Full-size table A full-size version of the table is also available. It shows the element categories (in Large Print only), groups and periods, plus the atomic number, the chemical symbol and atomic weight for each element.
Periodic table overview (UEB Uncontracted)
This is an overview to the periodic table with an accompanying key. It is a multi-page image set on two pages. There is a locator dot shown, which will be at the top left of the page when the image is the correct way up. The table shows element categories, groups and periods. Key to periodic table overvw - The textures/colours used on the overview to the periodic table of elements are shown in two columns. The texture/colour examples representing the element categories are labelled to the right. The same colours are also used on the full-sized periodic table mentioned above. Periodic table overvw The vertical columns show the groups (families) of elements. The groups are numbered across the top of the page. A horizontal row in the table is a period. The periods are numbered at the left of the page. In this arrangement of the periodic table, the lanthanoids and actinoids (the f-block) are separated from the other elements and are shown stretching across the bottom of the page. Full-size table A full-size version of the table is also available. It shows the element categories (in Large Print only), groups and periods, plus the atomic number, the chemical symbol and atomic weight for each element.
Periodic table (UEB Contracted)
This is a multi-page document showing the periodic table of chemical elements, and on the Large Print version, a key to the table. The LP key is on the first page. The table is in five parts, which can be joined together. There is a locator dot and title shown on each page. These will be at the top left of the page when it is the correct way up. This is a complex diagram and blind and partially sighted people may find it helpful to have some sighted assistance at first viewing. The table shows element categories (in large print only), groups (families) and periods, plus the atomic number, the chemical symbol and atomic weight for each element. Key to Large Print periodic table - The key to the table shows the colours used to represent the element categories, and is arranged in two columns. In each column, the colour samples are to the left with their names to the right. The categories are not shown on the tactile version of the table, as there is insufficient space in the cells for textures. It is recommended that you download the Periodic table overview from the ImageShare site, as this shows the element categories in tactile format. Periodic tabl The table comprises cells arranged in columns and rows. A cell shows the atomic number, chemical symbol and atomic weight for an element. In the Large Print version of the table, the cell colour relates to the element category as shown on the key. The vertical columns show the groups (or families) of elements. The groups are numbered across the top of the page. A horizontal row in the table is a period. The periods are numbered on the left side of the first page of the table. In this arrangement of the periodic table, the lanthanoids and actinoids (periods 6 to 7, known as the f-block) are separated from the other elements and are shown stretching across the bottom of the page. The f-block on pages 3, 4 and 5 has no periodic numbers marked on the page. Joining the page - To allow space for braille labelling, this table has been split into five sections on separate pages. Join them to each other in number order, from left to right, trimming the periodic numbers as required. Pages 1 and 5 are A4 size and in portrait orientation. Pages 2 to 4 are A3 size and in landscape orientation. Trim the pages to allow joining, using the light, vertical dashed grid lines as guides. When joining the tactile pages, care should be taken to avoid covering any part of the table.
Reflection
This diagram shows a triangle reflected on two different mirror lines. A locator dot and title are shown. These must always be at the top left of the page when the image is the right way up. There is a graph with all four quadrants showing, and the x and y axes ranging from -3 to 3. The x and the y axis intersect at the origin O. Positive values are to the right and to the top of the diagram. Negative values are to the left and to the bottom of the diagram. Not all axis division marks are labelled. Some of the braille uses maths code notation. When a shape is reflected it is the same shape but turned over into a new position. The original triangle 1 is in the top left quadrant. Triangle 2 to the right is a reflection in the y-axis. The mirror line is represented by a heavy dashed line which has replaced the normal y axis line in the top part of the diagram. Triangle 3 in the bottom right quadrant, is a reflection in the y = x-axis. This mirror line is also shown as a heavy dashed line. Note the two mirror lines would normally go from one edge of the graph to the other, in this diagram the mirror lines have been shortened to prevent tactile confusion.
Reflection
This diagram shows a triangle reflected on two different mirror lines. A locator dot and title are shown. These must always be at the top left of the page when the image is the right way up. There is a graph with all four quadrants showing, and the x and y axes ranging from -3 to 3. The x and the y axis intersect at the origin O. Positive values are to the right and to the top of the diagram. Negative values are to the left and to the bottom of the diagram. Not all axis division marks are labelled. Some of the braille uses maths code notation. When a shape is reflected it is the same shape but turned over into a new position. The original triangle 1 is in the top left quadrant. Triangle 2 to the right is a reflection in the y-axis. The mirror line is represented by a heavy dashed line which has replaced the normal y axis line in the top part of the diagram. Triangle 3 in the bottom right quadrant, is a reflection in the y = x-axis. This mirror line is also shown as a heavy dashed line. Note the two mirror lines would normally go from one edge of the graph to the other, in this diagram the mirror lines have been shortened to prevent tactile confusion.
Reflection
This diagram shows a triangle reflected on two different mirror lines. A locator dot and title are shown. These must always be at the top left of the page when the image is the right way up. There is a graph with all four quadrants showing, and the x and y axes ranging from -3 to 3. The x and the y axis intersect at the origin O. Positive values are to the right and to the top of the diagram. Negative values are to the left and to the bottom of the diagram. Not all axis division marks are labelled. Some of the braille uses maths code notation. When a shape is reflected it is the same shape but turned over into a new position. The original triangle 1 is in the top left quadrant. Triangle 2 to the right is a reflection in the y-axis. The mirror line is represented by a heavy dashed line which has replaced the normal y axis line in the top part of the diagram. Triangle 3 in the bottom right quadrant, is a reflection in the y = x-axis. This mirror line is also shown as a heavy dashed line. Note the two mirror lines would normally go from one edge of the graph to the other, in this diagram the mirror lines have been shortened to prevent tactile confusion.
The respiration cycle - front view (Large Print)
There are two diagrams on the page, one on the top half and one on the bottom half of the page, and they both show the lungs and other contents of the chest in diagrammatic form. They are separated by a thin dashed line. A locator dot and title are shown. These must always be at the top left of the page when the image is the right way up. The top diagram shows the principle of breathing in. The ribs and intercostal muscles have lifted; the diaphragm is pushing down. This increases the capacity of the chest and air goes in. The bottom diagram shows the principle of breathing out. The ribs and intercostal muscles have moved downwards; the diaphragm has relaxed and moved up. This decreases the capacity of the chest, and air goes out.
The respiration cycle - front view (UEB Contracted)
There are two diagrams on the page, one on the top half and one on the bottom half of the page, and they both show the lungs and other contents of the chest in diagrammatic form. They are separated by a thin dashed line. A locator dot and title are shown. These must always be at the top left of the page when the image is the right way up. The top diagram shows the principle of breathing in. The ribs and intercostal muscles have lifted; the diaphragm is pushing down. This increases the capacity of the chest and air goes in. The bottom diagram shows the principle of breathing out. The ribs and intercostal muscles have moved downwards; the diaphragm has relaxed and moved up. This decreases the capacity of the chest, and air goes out.
The respiration cycle - front view (UEB Uncontracted)
There are two diagrams on the page, one on the top half and one on the bottom half of the page, and they both show the lungs and other contents of the chest in diagrammatic form. They are separated by a thin dashed line. A locator dot and title are shown. These must always be at the top left of the page when the image is the right way up. The top diagram shows the principle of breathing in. The ribs and intercostal muscles have lifted; the diaphragm is pushing down. This increases the capacity of the chest and air goes in. The bottom diagram shows the principle of breathing out. The ribs and intercostal muscles have moved downwards; the diaphragm has relaxed and moved up. This decreases the capacity of the chest, and air goes out.
The respiration cycle - side view (Large Print)
There are two diagrams on the page, one on the top half and one on the bottom half of the page, they both show the lungs and other contents of the chest in diagrammatic form. They are separated by a thin dashed line. A locator dot and title are shown. These must always be at the top left of the page when the image is the right way up. The top diagram shows the principle of breathing in. The rib and sternum have lifted; the diaphragm is pushing down. This increases the capacity of the chest and air goes in. The bottom diagram shows the principle of breathing out. The rib and sternum have moved downwards; the diaphragm has relaxed and moved up. This decreases the capacity of the chest and air goes out.
The respiration cycle - side view (UEB Contracted)
There are two diagrams on the page, one on the top half and one on the bottom half of the page, they both show the lungs and other contents of the chest in diagrammatic form. They are separated by a thin dashed line. A locator dot and title are shown. These must always be at the top left of the page when the image is the right way up. The top diagram shows the principle of breathing in. The rib and sternum have lifted; the diaphragm is pushing down. This increases the capacity of the chest and air goes in. The bottom diagram shows the principle of breathing out. The rib and sternum have moved downwards; the diaphragm has relaxed and moved up. This decreases the capacity of the chest and air goes out.
The respiration cycle - side view (UEB Uncontracted)
There are two diagrams on the page, one on the top half and one on the bottom half of the page, they both show the lungs and other contents of the chest in diagrammatic form. They are separated by a thin dashed line. A locator dot and title are shown. These must always be at the top left of the page when the image is the right way up. The top diagram shows the principle of breathing in. The rib and sternum have lifted; the diaphragm is pushing down. This increases the capacity of the chest and air goes in. The bottom diagram shows the principle of breathing out. The rib and sternum have moved downwards; the diaphragm has relaxed and moved up. This decreases the capacity of the chest and air goes out.
Rotation
This diagram shows three triangles; the original triangle and its rotation in two different directions to two new positions. A locator dot and title are shown. These must always be at the top left of the page when the image is the right way up. There is a graph with all four quadrants showing, and the x and y axes ranging from -3 to 3. The x and the y axes intersect at the origin marked by an X. Axes values are positive to the right and to the top of the diagram. Axes values are negative to the left and to the bottom of the diagram. Not all axis division marks are labelled. Some of the braille uses maths code notation. When an object is rotated it stays the same shape but its position and orientation change. The original triangle is in the top left quadrant. The triangle rotated 90? clockwise is to the right. The triangle rotated 180? anticlockwise is shown in the bottom right quadrant. Their path of movement is indicated by curved heavy dashed arc lines. Note the 90? arc in the top right quadrant is broken in the tactile version of the graph to allow a braille label to be clearly read.
Rotation
This diagram shows three triangles; the original triangle and its rotation in two different directions to two new positions. A locator dot and title are shown. These must always be at the top left of the page when the image is the right way up. There is a graph with all four quadrants showing, and the x and y axes ranging from -3 to 3. The x and the y axes intersect at the origin marked by an X. Axes values are positive to the right and to the top of the diagram. Axes values are negative to the left and to the bottom of the diagram. Not all axis division marks are labelled. Some of the braille uses maths code notation. When an object is rotated it stays the same shape but its position and orientation change. The original triangle is in the top left quadrant. The triangle rotated 90? clockwise is to the right. The triangle rotated 180? anticlockwise is shown in the bottom right quadrant. Their path of movement is indicated by curved heavy dashed arc lines. Note the 90? arc in the top right quadrant is broken in the tactile version of the graph to allow a braille label to be clearly read.
Rotation
This diagram shows three triangles; the original triangle and its rotation in two different directions to two new positions. A locator dot and title are shown. These must always be at the top left of the page when the image is the right way up. There is a graph with all four quadrants showing, and the x and y axes ranging from -3 to 3. The x and the y axes intersect at the origin marked by an X. Axes values are positive to the right and to the top of the diagram. Axes values are negative to the left and to the bottom of the diagram. Not all axis division marks are labelled. Some of the braille uses maths code notation. When an object is rotated it stays the same shape but its position and orientation change. The original triangle is in the top left quadrant. The triangle rotated 90? clockwise is to the right. The triangle rotated 180? anticlockwise is shown in the bottom right quadrant. Their path of movement is indicated by curved heavy dashed arc lines. Note the 90? arc in the top right quadrant is broken in the tactile version of the graph to allow a braille label to be clearly read.
Similarity
This diagram consists of two pairs of similar shapes; the two in the middle of the page are similar and the bottom two are also similar. A locator dot and title are shown. These must always be at the top left of the page when the image is the right way up. Similarity is a type of enlargement. The corresponding sides are in the same ratio - the ratio is the scale factor of the enlargement.
Similarity
This diagram consists of two pairs of similar shapes; the two in the middle of the page are similar and the bottom two are also similar. A locator dot and title are shown. These must always be at the top left of the page when the image is the right way up. Similarity is a type of enlargement. The corresponding sides are in the same ratio - the ratio is the scale factor of the enlargement.
Similarity
This diagram consists of two pairs of similar shapes; the two in the middle of the page are similar and the bottom two are also similar. A locator dot and title are shown. These must always be at the top left of the page when the image is the right way up. Similarity is a type of enlargement. The corresponding sides are in the same ratio - the ratio is the scale factor of the enlargement.
Structure of a long bone (Large Print)
This page has two images of a long bone (human thigh bone) with the hip end at the top of the page, and the knee end at the bottom of the page. A locator dot and title are shown. These must always be at the top left of the page when the image is the right way up. The image on the left is a cross section, and the image on the right is the external appearance. The image on the left shows the internal structure and contents of the bone. It is like a tube with hard, strong bone forming the wall of the tube. Each end is filled with a lighter bone which is not quite as strong. The middle is filled with the soft marrow. Both images show the cartilage at the ends which make the joint smooth.
Structure of a long bone (UEB Contracted)
This page has two images of a long bone (human thigh bone) with the hip end at the top of the page, and the knee end at the bottom of the page. A locator dot and title are shown. These must always be at the top left of the page when the image is the right way up. The image on the left is a cross section, and the image on the right is the external appearance. The image on the left shows the internal structure and contents of the bone. It is like a tube with hard, strong bone forming the wall of the tube. Each end is filled with a lighter bone which is not quite as strong. The middle is filled with the soft marrow. Both images show the cartilage at the ends which make the joint smooth.
Structure of a long bone (UEB Uncontracted)
This page has two images of a long bone (human thigh bone) with the hip end at the top of the page, and the knee end at the bottom of the page. A locator dot and title are shown. These must always be at the top left of the page when the image is the right way up. The image on the left is a cross section, and the image on the right is the external appearance. The image on the left shows the internal structure and contents of the bone. It is like a tube with hard, strong bone forming the wall of the tube. Each end is filled with a lighter bone which is not quite as strong. The middle is filled with the soft marrow. Both images show the cartilage at the ends which make the joint smooth.
Translation
This diagram shows three triangles; the original triangle and its translation in two different ways to two new positions. A locator dot and title are shown. These must always be at the top left of the page when the image is the right way up. There is a graph with all four quadrants showing, and the x and y axes ranging from -3 to 3. The x and the y axes intersect at the origin marked by an O. Axes values are positive to the right and to the top of the diagram. Axes values are negative to the left and to the bottom of the diagram. Not all axis division marks are labelled. Some of the braille uses maths code notation. When a shape is translated, it stays the same shape and orientation; only its position changes. The original triangle is in the top left quadrant. There is a translation to the right of a value of 4, and then a translation down of a value of 1. There is also a second translation, right to a value of 4, and then down to a value of 4. The movement of the first triangle is indicated by a heavy dashed line.
Translation
This diagram shows three triangles; the original triangle and its translation in two different ways to two new positions. A locator dot and title are shown. These must always be at the top left of the page when the image is the right way up. There is a graph with all four quadrants showing, and the x and y axes ranging from -3 to 3. The x and the y axes intersect at the origin marked by an O. Axes values are positive to the right and to the top of the diagram. Axes values are negative to the left and to the bottom of the diagram. Not all axis division marks are labelled. Some of the braille uses maths code notation. When a shape is translated, it stays the same shape and orientation; only its position changes. The original triangle is in the top left quadrant. There is a translation to the right of a value of 4, and then a translation down of a value of 1. There is also a second translation, right to a value of 4, and then down to a value of 4. The movement of the first triangle is indicated by a heavy dashed line.