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A-line and trumpet skirts (UEB contracted)
by RnibThere are two images of women's clothing on this page: an A-line skirt on the left and a trumpet skirt on the right. Both skirts have their waistbands at the top and their hems at the bottom. 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 A-line skirt is fitted at the waist, spreads out slightly from below the hips and finishes just below the knee. The trumpet skirt is fitted over the hips and thighs, flairs out from the knee and then falls in folds to calf length.
A-line and trumpet skirts (large print)
by RnibThere are two images of women's clothing on this page: an A-line skirt on the left and a trumpet skirt on the right. Both skirts have their waistbands at the top and their hems at the bottom. 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 A-line skirt is fitted at the waist, spreads out slightly from below the hips and finishes just below the knee. The trumpet skirt is fitted over the hips and thighs, flairs out from the knee and then falls in folds to calf length.
Blood cells (UEB uncontracted)
by RnibThis page shows images of different types of blood cells. There is a locator dot shown, which will be at the top left, when the image is the correct way up. On the left of the page are two red blood cells. The top one is shown from the top and the bottom one slightly from the side. They have an unusual shape called a biconcave disc. The rim of the disc is thicker than the centre. In the centre of the page are two types of white blood cell with different nuclei. On the right of the page is a small group of eight platelets. They are fragments of cells with no nucleus.
Blood cells (UEB contracted)
by RnibThis page shows images of different types of blood cells. There is a locator dot shown, which will be at the top left, when the image is the correct way up. On the left of the page are two red blood cells. The top one is shown from the top and the bottom one slightly from the side. They have an unusual shape called a biconcave disc. The rim of the disc is thicker than the centre. In the centre of the page are two types of white blood cell with different nuclei. On the right of the page is a small group of eight platelets. They are fragments of cells with no nucleus.
Blood cells (large print)
by RnibThis page shows images of different types of blood cells. There is a locator dot shown, which will be at the top left, when the image is the correct way up. On the left of the page are two red blood cells. The top one is shown from the top and the bottom one slightly from the side. They have an unusual shape called a biconcave disc. The rim of the disc is thicker than the centre. In the centre of the page are two types of white blood cell with different nuclei. On the right of the page is a small group of eight platelets. They are fragments of cells with no nucleus.
Bones of the Wrist (SEB uncontracted)
by Rnib LoughboroughThe image shows the bones of the wrist in the right arm, as viewed with the palm of the hand facing and the thumb to the right. There is a key to the diagram on page one and the diagram on page two. 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 8 bones of the wrist are arranged in two rows of 4 bones. From left to right, the upper row consists of: * hamate * capitate * trapezoid * trapezium From left to right, the lower row consists of: * pisiform * triquetral * lunate * scaphoid The position of the metacarpals of the little finger and thumb, and the ulna and radius, are also shown.
Bones of the Hand (UEB Uncontracted)
by RnibThe image shows the bones of the hand. It is a right hand, palm facing towards you, so the thumb is on the right. 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. From the top, the bones of the hand are: * Phalanges - three bones in each finger, two bones in the thumb. * Metacarpals (shaded in the diagram) - five bones altogether. * Carpals - eight bones forming the wrist
Bones of the Wrist (large print)
by Rnib LoughboroughThe image shows the bones of the wrist in the right arm, as viewed with the palm of the hand facing and the thumb to the right. There is a key to the diagram on page one and the diagram on page two. 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 8 bones of the wrist are arranged in two rows of 4 bones. From left to right, the upper row consists of: * hamate * capitate * trapezoid * trapezium From left to right, the lower row consists of: * pisiform * triquetral * lunate * scaphoid The position of the metacarpals of the little finger and thumb, and the ulna and radius, are also shown.
Bones of the Foot and Ankle (UEB Uncontracted)
by RnibThe image shows the top view of the bones of the foot and ankle. The toes are towards the top of the page, the ankle bones are 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 ankle bones consist of (working from top to bottom): * the three cuneiforms - medial (outermost) * intermediate; lateral (innermost) * navicular * cuboid * talus * calcaneus
Bone connective tissue (Large Print)
by RnibThe image shows the cross section through bone connective tissue. 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. Bone connective tissue strengthens the skeleton and consists of cells arranged in cylindical layers around a central (Haversian) canal containing a blood vessel. Cells known as osteocytes are networked to each other via long cytoplasmic extensions that occupy tiny canals called canaliculi.
Artery - conveys blood away from the heart (large print)
by Rnib LoughboroughThe image shows a cross-section through an artery, an arrow representing blood flow direction.
Bones of the human hand (large print)
by RnibThis image shows the bones of the human hand. 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 fingers are at the top of the page and the wrist is at the bottom of the page. The little finger is on the left and the thumb is on the right of the page. The four fingers have three bones and the thumb has two. Down from the finger bones are four bones which make up the palm. The wrist has seven rounded square bones at the bottom of the page.
Bones of the human hand (UEB contracted)
by RnibThis image shows the bones of the human hand. 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 fingers are at the top of the page and the wrist is at the bottom of the page. The little finger is on the left and the thumb is on the right of the page. The four fingers have three bones and the thumb has two. Down from the finger bones are four bones which make up the palm. The wrist has seven rounded square bones at the bottom of the page.
Bones of the human hand (UEB uncontracted)
by RnibThis image shows the bones of the human hand. 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 fingers are at the top of the page and the wrist is at the bottom of the page. The little finger is on the left and the thumb is on the right of the page. The four fingers have three bones and the thumb has two. Down from the finger bones are four bones which make up the palm. The wrist has seven rounded square bones at the bottom of the page.
Bones of the human leg (UEB contracted)
by RnibThis image shows the bones of the human leg seen from the front. 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 right leg is on the left and the left leg is on the right of the page. The thigh bone is at the top of the page and the feet are at the bottom of the page. The thigh long bone (femur) of the right leg fills the top left of the page. At the top right of it is the rounded ball where the leg fits into a socket in the pelvis to make the hip joint. At the bottom end of the bone the round kneecap (patella) lies above the knee joint. Down from the thigh bone the lower leg is made of two long bones lying next to each other. The larger tibia is to the right and the smaller, narrower fibula is to the left. The bones of the foot are at the bottom of the page with the little toe on the left and the big toe on the right. The left leg is a reflection of this shown on the right of the page.
Bones of the human leg (large print)
by RnibThis image shows the bones of the human leg seen from the front. 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 right leg is on the left and the left leg is on the right of the page. The thigh bone is at the top of the page and the feet are at the bottom of the page. The thigh long bone (femur) of the right leg fills the top left of the page. At the top right of it is the rounded ball where the leg fits into a socket in the pelvis to make the hip joint. At the bottom end of the bone the round kneecap (patella) lies above the knee joint. Down from the thigh bone the lower leg is made of two long bones lying next to each other. The larger tibia is to the right and the smaller, narrower fibula is to the left. The bones of the foot are at the bottom of the page with the little toe on the left and the big toe on the right. The left leg is a reflection of this shown on the right of the page
Bones of the human leg (UEB uncontracted)
by RnibThis image shows the bones of the human leg seen from the front. 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 right leg is on the left and the left leg is on the right of the page. The thigh bone is at the top of the page and the feet are at the bottom of the page. The thigh long bone (femur) of the right leg fills the top left of the page. At the top right of it is the rounded ball where the leg fits into a socket in the pelvis to make the hip joint. At the bottom end of the bone the round kneecap (patella) lies above the knee joint. Down from the thigh bone the lower leg is made of two long bones lying next to each other. The larger tibia is to the right and the smaller, narrower fibula is to the left. The bones of the foot are at the bottom of the page with the little toe on the left and the big toe on the right. The left leg is a reflection of this shown on the right of the page.
A Motor Neuron (UEB contracted)
by RnibThis is a diagram of a motor neuron. It shows the cell body on the right, the axons in the middle and the nerve endings on the left. The direction of the nerve impulse is shown as moving from right to left.
Chromatography (large print)
by RnibOn this page there are two labelled, cutaway cross section views showing the process of chromatography. 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 first diagram, in the top right of the page, shows a beaker with a small amount of water in the bottom. A piece of chromatography paper with a horizontal line of drops of dye has been suspended in the water so that the drops are just above the surface of the water. The drops are labelled X, Y, A, B, C, going from left to right. In the second diagram, in the bottom right of the page, the water has soaked into the paper and carried the drops of dye up the page with it. Drops X (green) and Y (mauve) are each mixtures of two dyes and have separated out into their constituents, with the dyes that have smaller molecules going further up the page.
How white blood cells protect against bacteria Diagram 5 of 5 (UEB contracted)
by Sheffield Vi ServiceThis is the fifth in a series of unlabelled diagrams showing white blood cell protecting the body against bacteria.
How white blood cells protect agains bacteria Diagram 4 of 5 (UEB contracted)
by Sheffield Vi ServiceThis is the fourth in a series of unlabelled diagrams showing white blood cell protecting the body against bacteria.
How white blood cells protect against bacteria Diagram 2 of 5 (UEB contracted)
by Sheffield Vi ServiceThis is the second in a series of unlabelled diagrams showing white blood cell protecting the body against bacteria.
How white blood cells protect against bacteria Diagram 3 of 5 (UEB uncontracted)
by Sheffield Vi ServiceThis is the third in a series of unlabelled diagrams showing white blood cell protecting the body against bacteria.
How white blood cells protect against bacteria Diagram 1 of 5 (UEB contracted)
by Sheffield Vi ServiceThis is the first in a series of unlabelled diagrams showing white blood cell protecting the body against bacteria.
Phagocytes Ingest Micro-Organisms (UEB contracted)
by RnibThis diagram shows the three-part process of a phagocyte cell ingesting bacteria.