Red blood cells are bi-concave so that they can store more haemoglobin. This gives each cells a greater affinity for oxygen, allowing more to be transported around the body. In other words, the surface area is increased.
Normal blood red cells are biconcave disks, approx. oval.
A red blood cell has no nucleus and a biconcave shape. This structure allows it to carry oxygen more efficiently.
Biconcave cells without nuclei are called red blood cells.
The advantage of red blood cells' biconcave shape is that the surface area is increased to allow more haemoglobin to be stored in the cell. This means that the red blood cells can acquire a greater volume of oxygen than if they had a flatter membrane.
'Spectrin' protein found in the outer cell membrane of the RBC Which give charctestics shape{BICONCAVE} .
It is biconcave in shape , mature red blood cell do not have nucleus,
It depends on d type of cell;white blood cell and blood platelets are amoeboid in shape;red blood cell is round and biconcave in shape
Normal blood red cells are biconcave disks, approx. oval.
This cell is a red blood cell. The unique biconcave shape allows it to squeeze through tiny capillaries at the extremities of the body.
The red blood cell's biconcave shape increases its surface area for diffusion. The lack of a nucleus makes this shape possible.
A red blood cell has no nucleus and a biconcave shape. This structure allows it to carry oxygen more efficiently.
Biconcave cells without nuclei are called red blood cells.
The advantage of red blood cells' biconcave shape is that the surface area is increased to allow more haemoglobin to be stored in the cell. This means that the red blood cells can acquire a greater volume of oxygen than if they had a flatter membrane.
'Spectrin' protein found in the outer cell membrane of the RBC Which give charctestics shape{BICONCAVE} .
Red Blood Cells, they also lack a nucleus and the biconcave shape increases surface area. They also contain roughly about 280 million hemoglobin molecules that bind 4 molecules of O2 each.
The biconcave shape of the red blood cell increases its surface area, this means theres a higher probability that oxygen will bind with the cell.
Curved in the inner surface on both sides. For example : a red blood cell, crescent moon.