- Table View
- List View
Chinese multiplication (large print)
by RnibThis page shows a labelled diagram. There is a locator dot shown, which will be at the top left, when the image is the correct way up. This image is like an unusual table with three rows and three columns. The first cell in the first row is the tens multiplier and the second cell in the first row is the units multiplier of the first set of multipliers. The last cell in the second row is the tens multiplier and the last cell in the third row is the units multiplier of the second set of multipliers. The second and third cells in the first and second columns are the result of the multiplications. Each cell is split by a diagonal dotted line. The number in the top left is the tens result and the number in the bottom right is the units result. There are diagonal arrows in a line pointing down and left showing the flow of addition. For example the 8 (cell 2, row 2) is added to the 1 (cell 3, row 2) which is added to the 4 (cell 3, row 1) making 13. The units figure 3 goes in the results and the tens figure is carried, going into the top left part of the cell to be added to that number string, so 2 plus 8 plus 0 plus the carried 1 makes 11. Again a tens figure of 1 goes in the top left of cell 2, row 1. The answer is in the bottom left of the page.
Changing speed graphs (UEB uncontracted)
by RnibThis page shows two graphs plotting time against distance travelled for a moving object. There is a locator dot shown, which will be at the top left of the page when the image is the correct way up. There is one graph on the top of the page and one on the bottom. Both of the graphs have an X-axis on the bottom of the image and a Y-axis to the left side of the image. On each graph the X-axis runs horizontally across the page. It is marked and labelled for every 5 seconds from zero at the origin in the bottom left of the image to 20 seconds at the right. On each graph the Y-axis goes up the left of the page. It is marked and labelled for every 40 metres, starting at zero in the origin in the bottom left corner of the image going to 200 metres at the top. On each graph the heavy, dashed data line (red on the large print) goes from the origin in the bottom left of the graph to the top right.
Circle theorems - tangents and chords (tactile)
by RnibThis diagram shows 4 circles over 4 pages and illustrates different angles at the circumference.
Circle theorems - angles at the circumference in a segment or semicircle (tactile)
by RnibThis diagram shows 4 circles over 4 pages and illustrates different angles at the circumference.
Braking graph (UEB contracted)
by RnibThis page shows a graph plotting time against velocity for a car when its brakes are applied. 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 graph's X-axis runs across the bottom of the page. It is marked and labelled for every 5 seconds from zero at the origin in the bottom left of the page to 15 seconds at the right. The graph's Y-axis goes up the left of the page. It is marked and labelled for every five metres per second, starting at zero in the origin in the bottom left corner of the page going to 25 m/s at the top left of the page. The heavy, dashed data line goes from 20 on the Y-axis across the page to the ten-second mark; it then goes down and right to 15 on the X-axis. The data points along its length are shown as small empty circles (red dots on the large print version).
Braking graph (large print)
by RnibThis page shows a graph plotting time against velocity for a car when its brakes are applied. 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 graph's X-axis runs across the bottom of the page. It is marked and labelled for every 5 seconds from zero at the origin in the bottom left of the page to 15 seconds at the right. The graph's Y-axis goes up the left of the page. It is marked and labelled for every five metres per second, starting at zero in the origin in the bottom left corner of the page going to 25 m/s at the top left of the page. The heavy, dashed data line goes from 20 on the Y-axis across the page to the ten-second mark; it then goes down and right to 15 on the X-axis. The data points along its length are shown as small empty circles (red dots on the large print version).
Braking graph (UEB uncontracted)
by RnibThis page shows a graph plotting time against velocity for a car when its brakes are applied. 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 graph's X-axis runs across the bottom of the page. It is marked and labelled for every 5 seconds from zero at the origin in the bottom left of the page to 15 seconds at the right. The graph's Y-axis goes up the left of the page. It is marked and labelled for every five metres per second, starting at zero in the origin in the bottom left corner of the page going to 25 m/s at the top left of the page. The heavy, dashed data line goes from 20 on the Y-axis across the page to the ten-second mark; it then goes down and right to 15 on the X-axis. The data points along its length are shown as small empty circles (red dots on the large print version).
Box Plot - example (tactile)
by RnibThis diagram shows a simple box plot with all of the parts labelled.
Block chart template 2 (tactile)
by Adrian FarnsworthThis page shows a chart with five horizontal blocks.
Block chart template 1 (tactile)
by Adrian FarnsworthThis page shows a chart with five vertical blocks.
Blank graph template- portrait (tactile)
by Adrian FarnsworthThese two pages show blank template graphs.
Blank graph (tactile)
by Adrian FarnsworthThese pages each show a blank graph with a Y-axis to the left and an X-axis to the bottom of the page. The axis lines are thicker than other lines on the graphs. Page one shows an image of an unlabelled graph with a grid of squares. Page two shows an image of an unlabelled graph with a grid of small squares. Page three shows an image of an unlabelled graph with a grid of large squares. Page four shows an image of an unlabelled graph with a grid of squares using thick grey lines. Page five shows an image of an unlabelled graph with a grid of squares using thin grey lines. Page six shows an image of a graph with axis labelled 0 to 8 in bold large print. Page seven shows an image of an graph with axis labelled 0 to 10 in large print.
Blank Venn (Boolean) diagram (tactile)
by Sheffield Vi ServiceThis is an image of two overlapping ellipses, which can be labelled and used as a Venn or Boolean diagram representing intersecting sets.
Blank clock face (tactile)
by Adrian FarnsworthThis page shows an image of a clock with no hands. The hands can be drawn on to tell different times of day.
Blank graph template- landscape (tactile)
by Adrian FarnsworthThese two pages show blank template graphs.
Bedroom scale drawing (1 cm to 50 cm) (large print)
by RnibThis page shows a simple diagram of the layout of a bedroom. There is a locator dot shown, which will be at the top left when the image is the correct way up. To be tactually accessible the drawing has been enlarged. The grid of dotted lines represents one centimetre squares. On the drawing the wardrobe is one centimetre by two centimetres. Therefore in the real bedroom the wardrobe is fifty centimetres by one metre.
Bedroom scale drawing (1 cm to 50 cm) (UEB uncontracted)
by RnibThis page shows a simple diagram of the layout of a bedroom. There is a locator dot shown, which will be at the top left when the image is the correct way up. To be tactually accessible the drawing has been enlarged. The grid of dotted lines represents one centimetre squares. On the drawing the wardrobe is one centimetre by two centimetres. Therefore in the real bedroom the wardrobe is fifty centimetres by one metre.
Bedroom scale drawing (1 cm to 50 cm) (UEB contracted)
by RnibThis page shows a simple diagram of the layout of a bedroom. There is a locator dot shown, which will be at the top left when the image is the correct way up. To be tactually accessible the drawing has been enlarged. The grid of dotted lines represents one centimetre squares. On the drawing the wardrobe is one centimetre by two centimetres. Therefore in the real bedroom the wardrobe is fifty centimetres by one metre.
Area of irregular shapes (UEB uncontracted)
by RnibThis page shows two square diagrams. There is a locator dot shown, which will be at the top left, when the image is the correct way up. There is a different irregular shape in each diagram. They have a grid of twenty five squares marked out by dashed lines on each of them. Counting the squares helps estimate the area of the irregular shape.
Area of irregular shapes (UEB contracted)
by RnibThis page shows two square diagrams. There is a locator dot shown, which will be at the top left, when the image is the correct way up. There is a different irregular shape in each diagram. They have a grid of twenty five squares marked out by dashed lines on each of them. Counting the squares helps estimate the area of the irregular shape.
Area of a triangle (large print)
by RnibThis page shows a small diagram. There is a locator dot shown, which will be at the top left, when the image is the correct way up. There is a diagram of a triangle and the equation for finding the area is written next to it.
Area of irregular shapes (large print)
by RnibThis page shows two square diagrams. There is a locator dot shown, which will be at the top left, when the image is the correct way up. There is a different irregular shape in each diagram. They have a grid of twenty five squares marked out by dashed lines on each of them. Counting the squares helps estimate the area of the irregular shape.
Area of a triangle (UEB uncontracted)
by RnibThis page shows a small diagram. There is a locator dot shown, which will be at the top left, when the image is the correct way up. There is a diagram of a triangle and the equation for finding the area is written next to it.
Area of a triangle (UEB contracted)
by RnibThis page shows a small diagram. There is a locator dot shown, which will be at the top left, when the image is the correct way up. There is a diagram of a triangle and the equation for finding the area is written next to it.
Area of a trapezium (UEB uncontracted)
by RnibThis page shows two simple shapes. There is a locator dot shown, which will be at the top left, when the image is the correct way up. The trapezium at the top of the page has its dimensions labelled with letters. These are referred to in the formula just up from the trapezium. This is the generic formula for working out the area of a trapezium. A second trapezium is at the bottom of the page, labelled with dimensions in metres. The calculation for the area of this trapezium is at the bottom of the page.