It would be 8.
cell plant
Depends on the cell phone.
A cell's volume is the amount of material that can fit into the cell. A cell's surface area is the total amount of material that makes up the outside of the cell. The ratio of surface area to volume is the amount of surface area per unit volume of an object or collection of objects.
Well, if you just bisect the angle at the top to get two equivalent triangles, then you solve for half of the original base from (half base)/(vertical side) = tan(angle). The formula is for the base length is thus 2 × vertical_height × tan(top_angle ÷ 2) Assuming the top angle in degrees is in cell B1 Assuming the vertical height is in cell B2 Assuming you want the base length in cell B3, then in cell B3 put the formula: =2*B2*TAN(B1/2) You will need to format the cell to give the required degree of accuracy (eg 1 dp).
A small cell will have a larger surface-to-volume ratio.
you times width and height and length
The rate at which the cell increases in size depends on the DNA. The ratio of the surface area (calculated: length x width x # of sides) is divided by the cell volume (calculated: length x width x height). THE VOLUME OF THE CELL INCREASES MORE RAPIDLY THAN THE SURFACE AREA, CAUSING THE RATIO OF SURFACE AREA OVER VOLUME TO DECREASE. This decrease causes cell malfunction. If the cell volume increases too much, then the ratio will decrease causing problems for the cell's regular functions.
The rate at which the cell increases in size depends on the DNA. The ratio of the surface area (calculated: length x width x # of sides) is divided by the cell volume (calculated: length x width x height). THE VOLUME OF THE CELL INCREASES MORE RAPIDLY THAN THE SURFACE AREA, CAUSING THE RATIO OF SURFACE AREA OVER VOLUME TO DECREASE. This decrease causes cell malfunction. If the cell volume increases too much, then the ratio will decrease causing problems for the cell's regular functions.
The rate at which the cell increases in size depends on the DNA. The ratio of the surface area (calculated: length x width x # of sides) is divided by the cell volume (calculated: length x width x height). THE VOLUME OF THE CELL INCREASES MORE RAPIDLY THAN THE SURFACE AREA, CAUSING THE RATIO OF SURFACE AREA OVER VOLUME TO DECREASE. This decrease causes cell malfunction. If the cell volume increases too much, then the ratio will decrease causing problems for the cell's regular functions.
Cell height is how high the cell is from bottom to top. Cell width is how wide the cell is from side to side.
6μm2
The rate at which the cell increases in size depends on the DNA. The ratio of the surface area (calculated: length x width x # of sides) is divided by the cell volume (calculated: length x width x height). THE VOLUME OF THE CELL INCREASES MORE RAPIDLY THAN THE SURFACE AREA, CAUSING THE RATIO OF SURFACE AREA OVER VOLUME TO DECREASE. This decrease causes cell malfunction. If the cell volume increases too much, then the ratio will decrease causing problems for the cell's regular functions.
Columnar cells are cells in which their height is at least four times their width. A Cuboidal Cell is a cell a cube-like shape where its width is about equal to its height.
If a cell has a length of 1 cm, its surface area would be equal to length X width X number of sides, or 1 cm X 1 cm X 6= 6 cm squared (2). The volume of the cell would be equal to length X width X number of sides or 1 cm X 1 cm X 1 cm = 1 cm to the 3rd power. To obtain the ratio of surface area to volume, divide the surface area by the volume. In this case, the ratio of surface area to volume would be 6:1 or 6/1.
cell plant
Lenght to width
The average length of an onion cell ranges from 0.25 mm or 250 microns to 0.4 mm or 400 microns. No one has actually measured the width of an onion cell but from the diameter of the field of view in a microscope and comparing the length to the width, I would say that the width is about a quarter or third of the length. Therefore, the width would have to be somewhere between 0.06 to 0.08 mm.