It is the periosturin, spongy bone, and bone marrow.
See the related questions section below.
The cross-sectional area of a river is the total area that the river occupies when viewed from above. It is the area between the two banks of the river and includes the width and depth of the water. This measurement is important for calculating the volume of water flow in the river.
An optical microscope can provide enough magnification to see most of the cell's parts.
it is homogenous because you can't see the different parts in it.(in a heterogeneous mixture, you can see the different parts)Answerit is homogenous because you can't see the different parts in it. (in a heterogeneous mixture, you can see the different parts)
Simply because there is a small magnet inside that is only powerfull enough to see some parts.
What can you see in the Cross-Section View that you can’t see in the Map View?
yes!!
triangular prism
The cross section is useful as it cuts across any type of shape. This is useful for architects who will be able to see the finer details of a structure.
Imagine that you wanted to cut a globe or a sphere exactly in half. When you looked at the cut you would see an exact circle on both pieces. This area would be the cross-section. You could work out the area of this cross-section by using A = Pi X r squared. But be careful. Don't assume that the cross sectional area is the same no matter where you cut. If you cut the globe at some other point, say near to the edge, the cross-section (the circular area that you would see) would be a lot smaller. You would come across a uniform cross-section if you cut a cable. No matter where you cut the cable the cross-section should be roughly the same. Also cross section doesn't have to be circular. The cross-section you get really depends on the original shape you are dealing with. If you cut a cube in half, you would get a square cross-section. So I guess you could imagine the term as applying to cutting across (hence cross) something to reveal 2 sections (hence section).
The shape of the cross section depends on the 3D object being sliced. For example, if you slice through a cylinder horizontally, the cross section would be a circle. If you cut through a cube diagonally, the cross section could be a triangle or a rectangle, depending on the angle of the cut. Thus, the specific 2D shape observed in the cross section varies based on the object's geometry and the orientation of the cut.
the mouth in the crop
the mouth in the crop
As the names suggest, compact bone is solid-looking, and forms the outer layers of all bone (and the shafts in long bones). Spongy bone looks like sponge, with small holes, and is found on the inside of bones and the expanded heads of long bones. As the names suggest, spongy bone is softer than the solid, compact bone. With the naked eye, you can see that the compact bone is smooth and located around the outside of a cross-section of bone. Spongy bone, on the other hand, is located on the inside and is very porous, like a sponge.
As the names suggest, compact bone is solid-looking, and forms the outer layers of all bone (and the shafts in long bones). Spongy bone looks like sponge, with small holes, and is found on the inside of bones and the expanded heads of long bones. As the names suggest, spongy bone is softer than the solid, compact bone. With the naked eye, you can see that the compact bone is smooth and located around the outside of a cross-section of bone. Spongy bone, on the other hand, is located on the inside and is very porous, like a sponge.
add up the cross section and see what vthe answer is, then times it by the other part. Simple!
a cross section applies to anything...it is a way of looking at something inside. imagine cutting through a pump (for example) and then looking perpindicular at it, like holding it out in your hands like binoculars, the shape that you see (a circle probably in this case) is called the cross sestion.