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Great Britain and Ireland July temperatures (Large Print)
This is a multi-page image of Great Britain and Ireland July temperatures, set on two pages. There are locator dots shown, which will be at the top left of each page when the images are the right way up. Great Britain and Ireland map: This page shows a map of Great Britain and Ireland. It has a dashed line image border and a north arrow. The map is in the middle of the page and extends to the top and bottom of the page. Mainland Great Britain is to the right and separated from Ireland by the Irish Sea. The north arrow is in the top right corner of the page and is framed by an image border. Great Britain and Ireland July temperatures: This is a map of Great Britain and Ireland with a dashed line image border and a north arrow. Great Britain and Ireland are in the centre of the page extending to the top and bottom. Ireland is on the left and Britain on the right separated by the Irish Sea. There are six heavy dashed lines representing isotherms (lines of equal temperature) shown on the map. Most of these run from east to west, although two of the lines form closed loops; these are indicated by labels on the right. In the top right corner is a north arrow enclosed by a dashed line image border.
Great Britain and Ireland January temperatures (Large Print)
This is a multi-page image of Great Britain and Ireland January temperatures, set on two pages. There are locator dots shown, which will be at the top left of each page when the images are the right way up.Great Britain and Ireland map: This page shows a map of Britain and, Ireland. It has a dashed line image border and a north arrow. The map of Britain and, Ireland is in the middle of the page and extends to the top and bottom of the page. Mainland Great Britain is to the right and separated from Ireland by the Irish Sea. The north arrow is in the top right corner of the page and is framed by an image border. Great Britain and Ireland January temperatures: This is a map of Britain and, Ireland with a dashed line image border and a north arrow. Great Britain and Ireland are in the centre of the page extending to the top and bottom. Ireland is on the left and Great Britain on the right separated by the Irish Sea. There are five heavy dashed lines representing isotherms (lines of equal temperature) shown on the map. These run approximately north to south, although one of these, in the centre of Ireland, is a closed loop. The temperature labels are to be found to the bottom and to the right of the land mass. In the top right corner is a north arrow enclosed by a dashed line image border.
Hurricane areas of the world (Large Print)
This is a multi-page image of Hurricane areas of the world, set on two pages. There are locator dots shown, which will be at the top left of each page when the images are the right way up. Key to hurricane areas of the world: This page shows the key to the diagram of hurricane areas of the world. On the left hand side of the page is a list of abbreviations for the continents of the world, listed in alphabetical order. In the middle of the page, running from top to bottom, is a line dividing the two parts of the key from each other. On the right hand side of the page are examples of the symbols, lines and textures (colours) used on the diagram. They are displayed in a column in alphabetical order with descriptive labels to the right.Hurricane areas of the world:This page shows a map of the world bounded by a dashed line image border. The land is shown by the textured areas of the map. On the left of the page are, North and South America, in the centre Europe, and on the right Asia and Australia. The heavy dashed line of the Equator runs horizontally across the middle of the page. The hurricanes and their directions are shown on the map as lines with arrowheads, which curve clockwise when up the page from the Equator and anti-clockwise when down the page. There are three of them just above the line of the Equator on the left of the page. On the right of the page, there are six above the Equator and six below.
Hurricane areas of the world (UEB uncontracted)
by RnibThis is a multi-page image of Hurricane areas of the world, set on two pages. There are locator dots shown, which will be at the top left of each page when the images are the right way up. Key to hurricane areas of the world: This page shows the key to the diagram of hurricane areas of the world. On the left hand side of the page is a list of abbreviations for the continents of the world, listed in alphabetical order. In the middle of the page, running from top to bottom, is a line dividing the two parts of the key from each other. On the right hand side of the page are examples of the symbols, lines and textures (colours) used on the diagram. They are displayed in a column in alphabetical order with descriptive labels to the right. Hurricane areas of the world: This page shows a map of the world bounded by a dashed line image border. The land is shown by the textured areas of the map. On the left of the page are, North and South America, in the centre Europe, and on the right Asia and Australia. The heavy dashed line of the Equator runs horizontally across the middle of the page. The hurricanes and their directions are shown on the map as lines with arrowheads, which curve clockwise when up the page from the Equator and anti-clockwise when down the page. There are three of them just above the line of the Equator on the left of the page. On the right of the page, there are six above the Equator and six below.
Laboratory balance (Weighing Scales) (Large Print)
by Rnib BookshareThis page shows a laboratory balance seen from the side in cross section. There is a locator dot and title shown, which will be at the top left of the page when it is the correct way up. The laboratory balance is a device for measuring the mass of an object using a known mass as a reference. At the top centre of the image is the beam, stretching out to the left and right of the page. The beam is a lever that rests on a point at its centre called a fulcrum. At each end of the beam are adjusting screws. Down the page from the fulcrum is a supporting pillar and down again is the base of the balance, running across the bottom of the page. There are two scale pans up the page from the balances base. There is one is hanging from each end of the beam. The one on the left of the page has an unknown weight of a substance. Weights are added to the pan on the right until the balance beam is level; there is a large and small weight on the pan. When the beam is level, the known mass of the weights on the right pan equals the unknown mass on the left pan.
Laboratory balance (Weighing Scales) (UEB Contracted)
by Rnib BookshareThis page shows a laboratory balance seen from the side in cross section. There is a locator dot and title shown, which will be at the top left of the page when it is the correct way up. The laboratory balance is a device for measuring the mass of an object using a known mass as a reference. At the top centre of the image is the beam, stretching out to the left and right of the page. The beam is a lever that rests on a point at its centre called a fulcrum. At each end of the beam are adjusting screws. Down the page from the fulcrum is a supporting pillar and down again is the base of the balance, running across the bottom of the page. There are two scale pans up the page from the balances base. There is one is hanging from each end of the beam. The one on the left of the page has an unknown weight of a substance. Weights are added to the pan on the right until the balance beam is level; there is a large and small weight on the pan. When the beam is level, the known mass of the weights on the right pan equals the unknown mass on the left pan.
Laboratory balance (Weighing Scales) (UEB Uncontracted)
by Rnib BookshareThis page shows a laboratory balance seen from the side in cross section. There is a locator dot and title shown, which will be at the top left of the page when it is the correct way up. The laboratory balance is a device for measuring the mass of an object using a known mass as a reference. At the top centre of the image is the beam, stretching out to the left and right of the page. The beam is a lever that rests on a point at its centre called a fulcrum. At each end of the beam are adjusting screws. Down the page from the fulcrum is a supporting pillar and down again is the base of the balance, running across the bottom of the page. There are two scale pans up the page from the balances base. There is one is hanging from each end of the beam. The one on the left of the page has an unknown weight of a substance. Weights are added to the pan on the right until the balance beam is level; there is a large and small weight on the pan. When the beam is level, the known mass of the weights on the right pan equals the unknown mass on the left pan.
Momentum before and after collision
This page shows two objects moving towards each other, and the result of their collision. There is a locator dot shown, which will be at the top left of the page when the image is the right way up. This event is depicted in two stages, the first stage at the top of the page, and the second at the bottom. Each diagram has a dashed line image border. Arrows indicate the direction of movement of the objects and labels indicate their speed in metres per second. Labels directly down the page from each object indicate their weight in kilos.Before: two objects moving towards each other. In the diagram at the top, two blocks are shown: the one on the left, with a right-pointing arrow up from it, is twice as wide as the one on the right, which has a left pointing arrow. The blocks are moving along a horizontal surface that runs across the width of the page. After: objects colliding and moving off together. In the bottom diagram, the two blocks have collided with each other at the centre of the page. They are now in contact and moving right, indicated by the arrow up the page, along the horizontal surface that runs across the width of the page.
Momentum before and after collision (Large Print)
by Rnib BookshareThis page shows two objects moving towards each other, and the result of their collision. There is a locator dot shown, which will be at the top left of the page when the image is the right way up. This event is depicted in two stages, the first stage at the top of the page, and the second at the bottom. Each diagram has a dashed line image border. Arrows indicate the direction of movement of the objects and labels indicate their speed in metres per second. Labels directly down the page from each object indicate their weight in kilos.Before: two objects moving towards each other. In the diagram at the top, two blocks are shown: the one on the left, with a right-pointing arrow up from it, is twice as wide as the one on the right, which has a left pointing arrow. The blocks are moving along a horizontal surface that runs across the width of the page. After: objects colliding and moving off together. In the bottom diagram, the two blocks have collided with each other at the centre of the page. They are now in contact and moving right, indicated by the arrow up the page, along the horizontal surface that runs across the width of the page.
Momentum before and after collision
This page shows two objects moving towards each other, and the result of their collision. There is a locator dot shown, which will be at the top left of the page when the image is the right way up. This event is depicted in two stages, the first stage at the top of the page, and the second at the bottom. Each diagram has a dashed line image border. Arrows indicate the direction of movement of the objects and labels indicate their speed in metres per second. Labels directly down the page from each object indicate their weight in kilos.Before: two objects moving towards each other. In the diagram at the top, two blocks are shown: the one on the left, with a right-pointing arrow up from it, is twice as wide as the one on the right, which has a left pointing arrow. The blocks are moving along a horizontal surface that runs across the width of the page. After: objects colliding and moving off together. In the bottom diagram, the two blocks have collided with each other at the centre of the page. They are now in contact and moving right, indicated by the arrow up the page, along the horizontal surface that runs across the width of the page.
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 (Large Print)
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.
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.
Tension forces that balance weight (large print)
by Rnib BookshareOn this page, there are two groups of diagrams showing tension and reaction forces acting upon objects. Each group has a dashed line image border. There is a locator dot shown, which will be at the top left of the page when the image is the right way up. In the left border, there is a ball on a spring (left) and a ball on a piece of foam (right). In the right border is a ball suspended on string (left) and a ball on a floor (right). Diagrams on the left: In the top left of the left hand border is a spiral spring, and slightly right an arrow pointing upwards (tension force). Down the page is a ball and further down a downward-pointing arrow (weight). Towards the top right is an arrow pointing upwards (reaction force). Down the page is a ball and further down a block of foam with a downward-pointing arrow (weight). Diagrams on the right: At the top left of the right hand border is a line going down the page representing a length of string with an upward pointing arrow slightly to the right (tension force). Down the page is a ball and further down is a downward- pointing arrow (weight). Towards the top right is an upward-pointing arrow with a ball down the page from it. Further down is a section of floor with a downward-pointing arrow (reaction force).
Tension forces that balance weight (UEB contracted)
by Rnib BookshareOn this page, there are two groups of diagrams showing tension and reaction forces acting upon objects. Each group has a dashed line image border. There is a locator dot shown, which will be at the top left of the page when the image is the right way up. In the left border, there is a ball on a spring (left) and a ball on a piece of foam (right). In the right border is a ball suspended on string (left) and a ball on a floor (right). Diagrams on the left: In the top left of the left hand border is a spiral spring, and slightly right an arrow pointing upwards (tension force). Down the page is a ball and further down a downward-pointing arrow (weight). Towards the top right is an arrow pointing upwards (reaction force). Down the page is a ball and further down a block of foam with a downward-pointing arrow (weight). Diagrams on the right: At the top left of the right hand border is a line going down the page representing a length of string with an upward pointing arrow slightly to the right (tension force). Down the page is a ball and further down is a downward- pointing arrow (weight). Towards the top right is an upward-pointing arrow with a ball down the page from it. Further down is a section of floor with a downward-pointing arrow (reaction force).
Tension forces that balance weight (UEB uncontracted)
by Rnib BookshareOn this page, there are two groups of diagrams showing tension and reaction forces acting upon objects. Each group has a dashed line image border. There is a locator dot shown, which will be at the top left of the page when the image is the right way up. In the left border, there is a ball on a spring (left) and a ball on a piece of foam (right). In the right border is a ball suspended on string (left) and a ball on a floor (right). Diagrams on the left: In the top left of the left hand border is a spiral spring, and slightly right an arrow pointing upwards (tension force). Down the page is a ball and further down a downward-pointing arrow (weight). Towards the top right is an arrow pointing upwards (reaction force). Down the page is a ball and further down a block of foam with a downward-pointing arrow (weight). Diagrams on the right: At the top left of the right hand border is a line going down the page representing a length of string with an upward pointing arrow slightly to the right (tension force). Down the page is a ball and further down is a downward- pointing arrow (weight). Towards the top right is an upward-pointing arrow with a ball down the page from it. Further down is a section of floor with a downward-pointing arrow (reaction force).
Translation
by RnibThis 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.
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.
Turning forces (large print)
by Rnib BookshareThis diagram shows turning forces acting on an open-ended wrench in the middle of the page with the head of a nut in its jaws. There is a locator dot shown, which will be at the top left of the page when the image is the right way up. The handle of the wrench is to the left centre of the page. The jaws are to the right. The six-sided head of the nut fits into the jaws of the wrench, with a dot at its centre that marks its fulcrum (pivot point). To the right of the nut is an arrow showing the anti-clockwise direction of turning. Down the page from the left of the wrench is an arrow pointing down, showing the direction of force and a label showing the force in Newtons. Further down, running horizontally, is a dimension line that shows the distance from the end of the handle to the pivot point.
Turning forces (UEB contracted)
by Rnib BookshareThis diagram shows turning forces acting on an open-ended wrench in the middle of the page with the head of a nut in its jaws. There is a locator dot shown, which will be at the top left of the page when the image is the right way up. The handle of the wrench is to the left centre of the page. The jaws are to the right. The six-sided head of the nut fits into the jaws of the wrench, with a dot at its centre that marks its fulcrum (pivot point). To the right of the nut is an arrow showing the anti-clockwise direction of turning. Down the page from the left of the wrench is an arrow pointing down, showing the direction of force and a label showing the force in Newtons. Further down, running horizontally, is a dimension line that shows the distance from the end of the handle to the pivot point.
Turning forces (UEB uncontracted)
by Rnib BookshareThis diagram shows turning forces acting on an open-ended wrench in the middle of the page with the head of a nut in its jaws. There is a locator dot shown, which will be at the top left of the page when the image is the right way up. The handle of the wrench is to the left centre of the page. The jaws are to the right. The six-sided head of the nut fits into the jaws of the wrench, with a dot at its centre that marks its fulcrum (pivot point). To the right of the nut is an arrow showing the anti-clockwise direction of turning. Down the page from the left of the wrench is an arrow pointing down, showing the direction of force and a label showing the force in Newtons. Further down, running horizontally, is a dimension line that shows the distance from the end of the handle to the pivot point.