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Velocity-time graph
On this page there is a graph showing velocity plotted against time. 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 y-axis (velocity) is a line that extends vertically down the left-hand side of the page. Three-quarters of the way down the page, it meets the line of the x-axis (time) at a point marked with a zero (the origin). The x-axis extends horizontally across the page. A thick dashed line, which starts at the origin and goes up and down the page to the right, indicates various stages of velocity against time. Leader lines point from the plotted line to labels indicating these stages of travel.
Velocity-time graph
On this page there is a graph showing velocity plotted against time. 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 y-axis (velocity) is a line that extends vertically down the left-hand side of the page. Three-quarters of the way down the page, it meets the line of the x-axis (time) at a point marked with a zero (the origin). The x-axis extends horizontally across the page. A thick dashed line, which starts at the origin and goes up and down the page to the right, indicates various stages of velocity against time. Leader lines point from the plotted line to labels indicating these stages of travel.
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.
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.
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.
Life Cycle of a frog 5 of 5 (Adult frog) (UEB Uncontracted)
This page is filled with the image of an adult frog stretched out to its full length. It is seen from above with its head at the top and back legs at the bottom. There is a locator dot shown, which will be at the top left of the page when the image is the right way up. To the left is a scale showing the approximate size of its body. In the top centre of the page is the frog's upper lip with two eyes slightly down from this. The frog's front legs, extending out to hand-like feet, can be found to either side. The frog's rounded body is in the centre of the page with two lines in the middle indicating the boney structure of its back. The lower half of the image shows the frog's two well-muscled rear legs extending down from its body and ending in three-toed feet at the bottom of the page.
Life Cycle of a frog 5 of 5 (Adult frog) (UEB Contracted)
This page is filled with the image of an adult frog stretched out to its full length. It is seen from above with its head at the top and back legs at the bottom. There is a locator dot shown, which will be at the top left of the page when the image is the right way up. To the left is a scale showing the approximate size of its body. In the top centre of the page is the frog's upper lip with two eyes slightly down from this. The frog's front legs, extending out to hand-like feet, can be found to either side. The frog's rounded body is in the centre of the page with two lines in the middle indicating the boney structure of its back. The lower half of the image shows the frog's two well-muscled rear legs extending down from its body and ending in three-toed feet at the bottom of the page.
Cross section of the heart - Multi-page image (Large Print)
This is an image of a heart. 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 cross section of the heart (longitudinal section from the front) - This page explains the abbreviations used on the diagram page. The abbreviations are on the left with their explanation to the right. Cross section of the heart (longitudinal section from the front) - This diagram shows a human heart. The heart is divided into four chambers with four vessels connecting it to the rest of the body. Blood enters the heart in the top left of the diagram through the vein called the vena cava from the rest of the body. The right auricle contracts and the blood flows into the right ventricle through the tricuspid valve. The ventricle is a single chamber. Blood flows around the tendons (thick lines) that connect the valve flaps to the papillary muscles. The ventricle contracts and blood is forced up through the semilunar valve into the pulmonary artery and on to the lungs in the top centre left of the diagram. Oxygenated blood returns from the lungs to the heart in the top right of the diagram from the pulmonary vein. The left auricle contracts and the blood flows into the left ventricle through the bicuspid valve. The ventricle is a single chamber like the right ventricle. The ventricle contracts and blood is forced up through the semilunar valve into the aorta and on to the rest of the body in the top centre right of the diagram.
Cross section of the heart - Multi-page image (UEB Uncontracted)
This is an image of a heart. 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 cross section of the heart (longitudinal section from the front) - This page explains the abbreviations used on the diagram page. The abbreviations are on the left with their explanation to the right. Cross section of the heart (longitudinal section from the front) - This diagram shows a human heart. The heart is divided into four chambers with four vessels connecting it to the rest of the body. Blood enters the heart in the top left of the diagram through the vein called the vena cava from the rest of the body. The right auricle contracts and the blood flows into the right ventricle through the tricuspid valve. The ventricle is a single chamber. Blood flows around the tendons (thick lines) that connect the valve flaps to the papillary muscles. The ventricle contracts and blood is forced up through the semilunar valve into the pulmonary artery and on to the lungs in the top centre left of the diagram. Oxygenated blood returns from the lungs to the heart in the top right of the diagram from the pulmonary vein. The left auricle contracts and the blood flows into the left ventricle through the bicuspid valve. The ventricle is a single chamber like the right ventricle. The ventricle contracts and blood is forced up through the semilunar valve into the aorta and on to the rest of the body in the top centre right of the diagram.
Cross section of the heart - Multi-page image (UEB Contracted)
This is an image of a heart. 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 cross section of the heart (longitudinal section from the front) - This page explains the abbreviations used on the diagram page. The abbreviations are on the left with their explanation to the right. Cross section of the heart (longitudinal section from the front) - This diagram shows a human heart. The heart is divided into four chambers with four vessels connecting it to the rest of the body. Blood enters the heart in the top left of the diagram through the vein called the vena cava from the rest of the body. The right auricle contracts and the blood flows into the right ventricle through the tricuspid valve. The ventricle is a single chamber. Blood flows around the tendons (thick lines) that connect the valve flaps to the papillary muscles. The ventricle contracts and blood is forced up through the semilunar valve into the pulmonary artery and on to the lungs in the top centre left of the diagram. Oxygenated blood returns from the lungs to the heart in the top right of the diagram from the pulmonary vein. The left auricle contracts and the blood flows into the left ventricle through the bicuspid valve. The ventricle is a single chamber like the right ventricle. The ventricle contracts and blood is forced up through the semilunar valve into the aorta and on to the rest of the body in the top centre right of the diagram.
The limbs of the skeleton (Large Print)
by RnibThis diagram shows an arm and shoulder on the left and a leg on the right of the page, seen from the front. 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 shoulder is at the top and the hand at the bottom of the page.At the top is the thin collar bone, down from this is the shoulder blade. Attached the top left corner of the shoulder blade is the humerus (upper arm bone). This long bone goes down to the left middle of the page where the elbow can be found. The radius and ulna (lower arm bones) carry on down the page to the hand. The rounded carpal bones and the five longer metacarpal bones make up the palm of the hand. Continuing on from the metacarpal bones are the phalanx bones (finger bones). In the top right of the page is the head of the femur (thigh bone) where it would attach to the pelvis. This long bone goes down to the right middle of the page where the knee can be found. The patella (knee cap) is shown in front of the knee joint. The fibula and tibia (lower leg bones) carry on down the page to the foot. The ankle bones are down from the end of leg bones. The five longer metatarsal bones make up the body of the foot. Continuing on from the metatarsal bones are the phalanges bones (toe bones).
The limbs of the skeleton (UEB Contracted)
by RnibThis diagram shows an arm and shoulder on the left and a leg on the right of the page, seen from the front. 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 shoulder is at the top and the hand at the bottom of the page.At the top is the thin collar bone, down from this is the shoulder blade. Attached the top left corner of the shoulder blade is the humerus (upper arm bone). This long bone goes down to the left middle of the page where the elbow can be found. The radius and ulna (lower arm bones) carry on down the page to the hand. The rounded carpal bones and the five longer metacarpal bones make up the palm of the hand. Continuing on from the metacarpal bones are the phalanx bones (finger bones). In the top right of the page is the head of the femur (thigh bone) where it would attach to the pelvis. This long bone goes down to the right middle of the page where the knee can be found. The patella (knee cap) is shown in front of the knee joint. The fibula and tibia (lower leg bones) carry on down the page to the foot. The ankle bones are down from the end of leg bones. The five longer metatarsal bones make up the body of the foot. Continuing on from the metatarsal bones are the phalanges bones (toe bones).
The limbs of the skeleton (UEB Uncontracted)
by RnibThis diagram shows an arm and shoulder on the left and a leg on the right of the page, seen from the front. 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 shoulder is at the top and the hand at the bottom of the page.At the top is the thin collar bone, down from this is the shoulder blade. Attached the top left corner of the shoulder blade is the humerus (upper arm bone). This long bone goes down to the left middle of the page where the elbow can be found. The radius and ulna (lower arm bones) carry on down the page to the hand. The rounded carpal bones and the five longer metacarpal bones make up the palm of the hand. Continuing on from the metacarpal bones are the phalanx bones (finger bones). In the top right of the page is the head of the femur (thigh bone) where it would attach to the pelvis. This long bone goes down to the right middle of the page where the knee can be found. The patella (knee cap) is shown in front of the knee joint. The fibula and tibia (lower leg bones) carry on down the page to the foot. The ankle bones are down from the end of leg bones. The five longer metatarsal bones make up the body of the foot. Continuing on from the metatarsal bones are the phalanges bones (toe bones).
The skeleton (Large Print)
by RnibThis diagram shows a human skeleton standing and facing forwards. 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 skull is at the top of the page with two eye sockets and the nasal cavity. Down from the jaw are two of the neck vertebrae. Down from this is the breast bone with ribs curving out to the left and right. To the left and right of and behind the ribs are the shoulder blades. The upper arm goes down the page from them. At the elbow the lower arm consists of two bones. The hands have many bones in the palm and the fingers. Down from the breast bone the spinal vertebrae reappear from behind it. They continue to the bowl shaped pelvis. The legs are attached to the lower right and left part of the pelvis. Down from the knee and kneecap the lower leg has two bones. The feet have many bones in the sole and the toes.
The skeleton (UEB Contracted)
by RnibThis diagram shows a human skeleton standing and facing forwards. 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 skull is at the top of the page with two eye sockets and the nasal cavity. Down from the jaw are two of the neck vertebrae. Down from this is the breast bone with ribs curving out to the left and right. To the left and right of and behind the ribs are the shoulder blades. The upper arm goes down the page from them. At the elbow the lower arm consists of two bones. The hands have many bones in the palm and the fingers. Down from the breast bone the spinal vertebrae reappear from behind it. They continue to the bowl shaped pelvis. The legs are attached to the lower right and left part of the pelvis. Down from the knee and kneecap the lower leg has two bones. The feet have many bones in the sole and the toes.
The skeleton (UEB Uncontracted)
by RnibThis diagram shows a human skeleton standing and facing forwards. 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 skull is at the top of the page with two eye sockets and the nasal cavity. Down from the jaw are two of the neck vertebrae. Down from this is the breast bone with ribs curving out to the left and right. To the left and right of and behind the ribs are the shoulder blades. The upper arm goes down the page from them. At the elbow the lower arm consists of two bones. The hands have many bones in the palm and the fingers. Down from the breast bone the spinal vertebrae reappear from behind it. They continue to the bowl shaped pelvis. The legs are attached to the lower right and left part of the pelvis. Down from the knee and kneecap the lower leg has two bones. The feet have many bones in the sole and the toes.
The skull (Large Print)
This diagram shows a human skull, there is a front view on the left and a side view on the right 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 front view shows two large eye sockets, and down and between them is the nasal cavity. The zygomatic arch (cheek bone) sticks out slightly halfway down the skull to the left and right. Down from this are two rows of teeth and the arch of the jaw bone is at the bottom of the image. The side view is facing to the left. The sharp edge of the side of the nasal cavity can be found halfway down on the left of the image. One of the two eye sockets is to the right of this. Right and down slightly the zygomatic arch goes to the right. Right from this in the bottom centre is the aural canal which leads to the ear drum inside the head. In the bottom left of the image is the jaw bone.
The skull (UEB Uncontracted)
This diagram shows a human skull, there is a front view on the left and a side view on the right 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 front view shows two large eye sockets, and down and between them is the nasal cavity. The zygomatic arch (cheek bone) sticks out slightly halfway down the skull to the left and right. Down from this are two rows of teeth and the arch of the jaw bone is at the bottom of the image. The side view is facing to the left. The sharp edge of the side of the nasal cavity can be found halfway down on the left of the image. One of the two eye sockets is to the right of this. Right and down slightly the zygomatic arch goes to the right. Right from this in the bottom centre is the aural canal which leads to the ear drum inside the head. In the bottom left of the image is the jaw bone.
The skull (UEB Contracted)
This diagram shows a human skull, there is a front view on the left and a side view on the right 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 front view shows two large eye sockets, and down and between them is the nasal cavity. The zygomatic arch (cheek bone) sticks out slightly halfway down the skull to the left and right. Down from this are two rows of teeth and the arch of the jaw bone is at the bottom of the image. The side view is facing to the left. The sharp edge of the side of the nasal cavity can be found halfway down on the left of the image. One of the two eye sockets is to the right of this. Right and down slightly the zygomatic arch goes to the right. Right from this in the bottom centre is the aural canal which leads to the ear drum inside the head. In the bottom left of the image is the jaw bone.
Section through an incisor tooth (Large Print)
This is an image of an incisor tooth. There is a locator dot shown, which will be at the top left when the image is the right way up. The image is surrounded by an image border.The top of the tooth is at the top of the page and the root and jawbone at the bottom of the page. The components are labelled. The enamel, the cutting surface, is the upper layer. Down from this is the dentine layer which is slightly softer. The inner core is the soft pulp which contains the nerves and blood vessels. Going down to the bottom of the page is the root of the tooth which holds it firmly in place in the jawbone. The nerves and blood vessels come from the end of the root and join the main vessels in the jaw shown in cross section as a dot.
Section through an incisor tooth (UEB Contracted)
This is an image of an incisor tooth. There is a locator dot shown, which will be at the top left when the image is the right way up. The image is surrounded by an image border.The top of the tooth is at the top of the page and the root and jawbone at the bottom of the page. The components are labelled. The enamel, the cutting surface, is the upper layer. Down from this is the dentine layer which is slightly softer. The inner core is the soft pulp which contains the nerves and blood vessels. Going down to the bottom of the page is the root of the tooth which holds it firmly in place in the jawbone. The nerves and blood vessels come from the end of the root and join the main vessels in the jaw shown in cross section as a dot.
Section through an incisor tooth (UEB Uncontracted)
This is an image of an incisor tooth. There is a locator dot shown, which will be at the top left when the image is the right way up. The image is surrounded by an image border.The top of the tooth is at the top of the page and the root and jawbone at the bottom of the page. The components are labelled. The enamel, the cutting surface, is the upper layer. Down from this is the dentine layer which is slightly softer. The inner core is the soft pulp which contains the nerves and blood vessels. Going down to the bottom of the page is the root of the tooth which holds it firmly in place in the jawbone. The nerves and blood vessels come from the end of the root and join the main vessels in the jaw shown in cross section as a dot.