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The vase illusion (UEB Contracted)
by Rnib BookshareThis image displays the vase-faces illusion, in which a vase and two faces can be seen when looking at the same image. There is a locator dot shown, which will be at the top left of the page when the image is the right way up. Two diagrams are displayed on this page, one at the top and one at the bottom. Both are the same diagram, but with different portions shaded, to show each of the two images as they appear in the illusion. In the top diagram the left and right portions are shaded, and can be viewed as two faces in profile, looking at each other. In the bottom diagram the central portion is shaded, and this appears like a vase.
The vase illusion (UEB Uncontracted)
by Rnib BookshareThis image displays the vase-faces illusion, in which a vase and two faces can be seen when looking at the same image. There is a locator dot shown, which will be at the top left of the page when the image is the right way up. Two diagrams are displayed on this page, one at the top and one at the bottom. Both are the same diagram, but with different portions shaded, to show each of the two images as they appear in the illusion. In the top diagram the left and right portions are shaded, and can be viewed as two faces in profile, looking at each other. In the bottom diagram the central portion is shaded, and this appears like a vase.
Three mountains task (Large Print)
by Rnib BookshareThis diagram shows the set up of the three mountains task. 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 top half of the page is a plan view of a model of the three mountains on a square table with each side labelled 1 to 4. Looking down on the table there is a large mountain at the 12 oclock position, shown as a large circle, a middle sized one down from this on the right, and a small one on the left from it. The lower half of the page shows the side views of the experiment. Here there are four diagrams each showing a different view of the three mountains model, as seen by looking directly at it from each side. From side 1 the large mountain is on the left, and on the right the small mountain is in front of the middle sized mountain. From side 2, the small mountain and the middle sized mountain can be seen in front with the large mountain behind and in between them. From side 3 only the middle-sized and large mountains can be seen, as the small mountain is behind the middle sized mountain and cannot be seen. From side 4, the large mountain can be seen in front, with the other two behind it, the middle sized one on the left, and the small mountain on the right.
Three mountains task (UEB Contracted)
by Rnib BookshareThis diagram shows the set up of the three mountains task. 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 top half of the page is a plan view of a model of the three mountains on a square table with each side labelled 1 to 4. Looking down on the table there is a large mountain at the 12 oclock position, shown as a large circle, a middle sized one down from this on the right, and a small one on the left from it. The lower half of the page shows the side views of the experiment. Here there are four diagrams each showing a different view of the three mountains model, as seen by looking directly at it from each side. From side 1 the large mountain is on the left, and on the right the small mountain is in front of the middle sized mountain. From side 2, the small mountain and the middle sized mountain can be seen in front with the large mountain behind and in between them. From side 3 only the middle-sized and large mountains can be seen, as the small mountain is behind the middle sized mountain and cannot be seen. From side 4, the large mountain can be seen in front, with the other two behind it, the middle sized one on the left, and the small mountain on the right.
Three mountains task (UEB Uncontracted)
by Rnib BookshareThis diagram shows the set up of the three mountains task. 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 top half of the page is a plan view of a model of the three mountains on a square table with each side labelled 1 to 4. Looking down on the table there is a large mountain at the 12 oclock position, shown as a large circle, a middle sized one down from this on the right, and a small one on the left from it. The lower half of the page shows the side views of the experiment. Here there are four diagrams each showing a different view of the three mountains model, as seen by looking directly at it from each side. From side 1 the large mountain is on the left, and on the right the small mountain is in front of the middle sized mountain. From side 2, the small mountain and the middle sized mountain can be seen in front with the large mountain behind and in between them. From side 3 only the middle-sized and large mountains can be seen, as the small mountain is behind the middle sized mountain and cannot be seen. From side 4, the large mountain can be seen in front, with the other two behind it, the middle sized one on the left, and the small mountain on the right.
Eysenck's two personality dimensions (Large Print)
by Rnib BookshareThis image shows Eysenck's two personality dimensions and the personality traits associated with them. 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 image is a large circle, divided into four quadrants by a vertical and a horizontal line crossing through it. Just inside the circle at the end of the dividing lines the circle is labelled unstable at the top and stable at the bottom; introvert on the left and extravert on the right. The personality traits associated with each dimension are labelled just inside the circle. Their position in the circle show where on the dimension the trait falls. For instance, sociable falls in the stable extravert area.
Eysenck's two personality dimensions (UEB Contracted)
by Rnib BookshareThis image shows Eysenck's two personality dimensions and the personality traits associated with them. 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 image is a large circle, divided into four quadrants by a vertical and a horizontal line crossing through it. Just inside the circle at the end of the dividing lines the circle is labelled unstable at the top and stable at the bottom; introvert on the left and extravert on the right. The personality traits associated with each dimension are labelled just inside the circle. Their position in the circle show where on the dimension the trait falls. For instance, sociable falls in the stable extravert area.
Eysenck's two personality dimensions (UEB Uncontracted)
by Rnib BookshareThis image shows Eysenck's two personality dimensions and the personality traits associated with them. 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 image is a large circle, divided into four quadrants by a vertical and a horizontal line crossing through it. Just inside the circle at the end of the dividing lines the circle is labelled unstable at the top and stable at the bottom; introvert on the left and extravert on the right. The personality traits associated with each dimension are labelled just inside the circle. Their position in the circle show where on the dimension the trait falls. For instance, sociable falls in the stable extravert area.
Fanz's schematic faces experiment (Large Print)
by Rnib BookshareThis image is a line graph and three small face shape images. 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 x-axis is labelled Age of Infants and has tick marks labelled date points of 4 days, 1 month, and 2 months. The y-axis is labelled Seconds of fixation in 2 minute test and goes up from 0 to 50 in tens. There are three lines on this graph, labelled on the right hand side as A, B and C. These letters correspond to the test stimuli, shown beneath the graph. The test stimuli are as follows: A shows a typical drawing of a face with hair, eyes, eyebrows, nose and mouth, B shows a face shape, but with the facial features in the wrong places, and C shows just a face shape, no features except a dark shaded part at the top.
Fanz's schematic faces experiment (UEB Uncontracted)
by Rnib BookshareThis image is a line graph and three small face shape images. 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 x-axis is labelled Age of Infants and has tick marks labelled date points of 4 days, 1 month, and 2 months. The y-axis is labelled Seconds of fixation in 2 minute test and goes up from 0 to 50 in tens. There are three lines on this graph, labelled on the right hand side as A, B and C. These letters correspond to the test stimuli, shown beneath the graph. The test stimuli are as follows: A shows a typical drawing of a face with hair, eyes, eyebrows, nose and mouth, B shows a face shape, but with the facial features in the wrong places, and C shows just a face shape, no features except a dark shaded part at the top.
Fanz's schematic faces experiment (UEB Contracted)
by Rnib BookshareThis image is a line graph and three small face shape images. 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 x-axis is labelled Age of Infants and has tick marks labelled date points of 4 days, 1 month, and 2 months. The y-axis is labelled Seconds of fixation in 2 minute test and goes up from 0 to 50 in tens. There are three lines on this graph, labelled on the right hand side as A, B and C. These letters correspond to the test stimuli, shown beneath the graph. The test stimuli are as follows: A shows a typical drawing of a face with hair, eyes, eyebrows, nose and mouth, B shows a face shape, but with the facial features in the wrong places, and C shows just a face shape, no features except a dark shaded part at the top.
Gestalt principles of organisation (Large Print)
by Rnib BookshareThis image shows the four principles of organization. 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 first principle 1, proximity is shown in the top left of the diagram: three rows of four circles where the distance between circles in each row is smaller than the distance between each row. On the right is 2. The principle of similarity: three rows of alternate circles and squares. The distance between each circle and square in the row is smaller than the distance between each row. On the bottom left is 3. The principle of good continuation: two different lines crossing each other. On the bottom right is 4. The principle of closure: a circle that is not joined at the top.
Gestalt principles of organisation (UEB Uncontracted)
by Rnib BookshareThis image shows the four principles of organization. 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 first principle 1, proximity is shown in the top left of the diagram: three rows of four circles where the distance between circles in each row is smaller than the distance between each row. On the right is 2. The principle of similarity: three rows of alternate circles and squares. The distance between each circle and square in the row is smaller than the distance between each row. On the bottom left is 3. The principle of good continuation: two different lines crossing each other. On the bottom right is 4. The principle of closure: a circle that is not joined at the top.
Gestalt principles of organisation (UEB Contracted)
by Rnib BookshareThis image shows the four principles of organization. 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 first principle 1, proximity is shown in the top left of the diagram: three rows of four circles where the distance between circles in each row is smaller than the distance between each row. On the right is 2. The principle of similarity: three rows of alternate circles and squares. The distance between each circle and square in the row is smaller than the distance between each row. On the bottom left is 3. The principle of good continuation: two different lines crossing each other. On the bottom right is 4. The principle of closure: a circle that is not joined at the top.
Membrane Potential (Large Print)
by Rnib BookshareThis diagram shows what happens to the membrane potential of the cell when an action potential occurs. There is a locator dot shown, which will be at the top left of the page when the image is the right way up. There is a small key to the right of the page. The diagram is a line graph with the x-axis at the bottom of the page showing time (msec) and the y-axis on the left of the page showing membrane potential (mV). A dotted line extends across the graph at the -70mV point and this depicts the resting potential. An arrow near the beginning of the x-axis shows when the depolarising shock is applied. There is a single solid line on this graph, which starts at the -70 mV point on the y-axis. Just above the -70 mV point is a dashed leader line pointing to the solid line, which is labelled on the left as the threshold of excitation. After this point the solid line rises steeply past the +50mV point. This part of the graph is labelled D with an upwards pointing arrow for depolarisation. After this point the line falls steeply. A downwards pointing arrow R indicates repolarisation. The line dips below the resting potential before rising again to meet it, labelled as the refractory period.
Membrane Potential (UEB Contracted)
by Rnib BookshareThis diagram shows what happens to the membrane potential of the cell when an action potential occurs. There is a locator dot shown, which will be at the top left of the page when the image is the right way up. There is a small key to the right of the page. The diagram is a line graph with the x-axis at the bottom of the page showing time (msec) and the y-axis on the left of the page showing membrane potential (mV). A dotted line extends across the graph at the -70mV point and this depicts the resting potential. An arrow near the beginning of the x-axis shows when the depolarising shock is applied. There is a single solid line on this graph, which starts at the -70 mV point on the y-axis. Just above the -70 mV point is a dashed leader line pointing to the solid line, which is labelled on the left as the threshold of excitation. After this point the solid line rises steeply past the +50mV point. This part of the graph is labelled D with an upwards pointing arrow for depolarisation. After this point the line falls steeply. A downwards pointing arrow R indicates repolarisation. The line dips below the resting potential before rising again to meet it, labelled as the refractory period.
Membrane Potential (UEB Uncontracted)
by Rnib BookshareThis diagram shows what happens to the membrane potential of the cell when an action potential occurs. There is a locator dot shown, which will be at the top left of the page when the image is the right way up. There is a small key to the right of the page. The diagram is a line graph with the x-axis at the bottom of the page showing time (msec) and the y-axis on the left of the page showing membrane potential (mV). A dotted line extends across the graph at the -70mV point and this depicts the resting potential. An arrow near the beginning of the x-axis shows when the depolarising shock is applied. There is a single solid line on this graph, which starts at the -70 mV point on the y-axis. Just above the -70 mV point is a dashed leader line pointing to the solid line, which is labelled on the left as the threshold of excitation. After this point the solid line rises steeply past the +50mV point. This part of the graph is labelled D with an upwards pointing arrow for depolarisation. After this point the line falls steeply. A downwards pointing arrow R indicates repolarisation. The line dips below the resting potential before rising again to meet it, labelled as the refractory period.
ANOVA results one and two (Large Print)
by RnibThere are two graphs on the page which show the main effects that can occur with ANOVA data. There is a locator dot shown, which will be at the top left of the page when the image is the right way up. One graph is at the top of the page and one at the bottom. They both have the y-axis to the left labelled cell means. The x-axis to the bottom is marked with the experimental conditions A, B and C. There are two lines plotted on each graph, which are labelled at the top of the page in a small key, and represent the groups. Both graphs are titled Main effects for condition. The graph at the top of the page shows the two lines sloping downwards to the point marked B on the X-axis, and then rising upwards. The graph in the lower half of the page shows the two lines close together at point marked A on the X-axis and then rising upwards.
ANOVA results one and two (UEB Contracted)
by RnibThere are two graphs on the page which show the main effects that can occur with ANOVA data. There is a locator dot shown, which will be at the top left of the page when the image is the right way up. One graph is at the top of the page and one at the bottom. They both have the y-axis to the left labelled cell means. The x-axis to the bottom is marked with the experimental conditions A, B and C. There are two lines plotted on each graph, which are labelled at the top of the page in a small key, and represent the groups. Both graphs are titled Main effects for condition. The graph at the top of the page shows the two lines sloping downwards to the point marked B on the X-axis, and then rising upwards. The graph in the lower half of the page shows the two lines close together at point marked A on the X-axis and then rising upwards.
ANOVA results one and two (UEB Uncontracted)
by RnibThere are two graphs on the page which show the main effects that can occur with ANOVA data. There is a locator dot shown, which will be at the top left of the page when the image is the right way up. One graph is at the top of the page and one at the bottom. They both have the y-axis to the left labelled cell means. The x-axis to the bottom is marked with the experimental conditions A, B and C. There are two lines plotted on each graph, which are labelled at the top of the page in a small key, and represent the groups. Both graphs are titled Main effects for condition. The graph at the top of the page shows the two lines sloping downwards to the point marked B on the X-axis, and then rising upwards. The graph in the lower half of the page shows the two lines close together at point marked A on the X-axis and then rising upwards.
ANOVA results three and four (Large Print)
by RnibThere are two graphs on the page which show the main effects that can occur with ANOVA data. There is a locator dot shown, which will be at the top left of the page when the image is the right way up. One graph is at the top of the page and one at the bottom. They both have the y-axis to the left labelled cell means. The x-axis to the bottom is marked with the experimental conditions A, B and C. There are two lines plotted on each graph, which are labelled at the top of the page in a small key, and represent the groups. The graph at the top of the page shows the one line sloping downwards to the point marked C on the X-axis, and one line sloping up to the point marked C on the X-axis. The lines cross at point marked B on the X-axis. The graph in the lower half of the page shows the two lines nearly parallel to each other sloping slightly downwards.
ANOVA results three and four (UEB Contracted)
by RnibThere are two graphs on the page which show the main effects that can occur with ANOVA data. There is a locator dot shown, which will be at the top left of the page when the image is the right way up. One graph is at the top of the page and one at the bottom. They both have the y-axis to the left labelled cell means. The x-axis to the bottom is marked with the experimental conditions A, B and C. There are two lines plotted on each graph, which are labelled at the top of the page in a small key, and represent the groups. The graph at the top of the page shows the one line sloping downwards to the point marked C on the X-axis, and one line sloping up to the point marked C on the X-axis. The lines cross at point marked B on the X-axis. The graph in the lower half of the page shows the two lines nearly parallel to each other sloping slightly downwards.
ANOVA results three and four (UEB Uncontracted)
by RnibThere are two graphs on the page which show the main effects that can occur with ANOVA data. There is a locator dot shown, which will be at the top left of the page when the image is the right way up. One graph is at the top of the page and one at the bottom. They both have the y-axis to the left labelled cell means. The x-axis to the bottom is marked with the experimental conditions A, B and C. There are two lines plotted on each graph, which are labelled at the top of the page in a small key, and represent the groups. The graph at the top of the page shows the one line sloping downwards to the point marked C on the X-axis, and one line sloping up to the point marked C on the X-axis. The lines cross at point marked B on the X-axis. The graph in the lower half of the page shows the two lines nearly parallel to each other sloping slightly downwards.
Wechslers intelligence score (Large Print)
by Rnib BookshareThis is a line graph which shows the distribution of Intelligence Quotient (IQ) score in the population. 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 x-axis shows IQ score, marked from 55 on the left to 145 on the right, in 15 point increments, with 100 in the centre of the axis. The y-axis shows the percentage of the population in each IQ range. The graph is a curved line which peaks in the middle. It is split into eight sections by vertical lines from points on the curve down to the x-axis. Each section is labelled with a percentage value.
Wechslers intelligence score (UEB Contracted)
by Rnib BookshareThis is a line graph which shows the distribution of Intelligence Quotient (IQ) score in the population. 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 x-axis shows IQ score, marked from 55 on the left to 145 on the right, in 15 point increments, with 100 in the centre of the axis. The y-axis shows the percentage of the population in each IQ range. The graph is a curved line which peaks in the middle. It is split into eight sections by vertical lines from points on the curve down to the x-axis. Each section is labelled with a percentage value.