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∙ 11y agoRemember that as the diameter of a spherical cell increases, the surface area increases as the square of the diameter, and the volume increases as the cube of the diameter, so volume increases much faster than surface area. The same principle applies for other shapes than spherical cells, but the math is more complicated.
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∙ 11y agodecreases i believe(:
The relationship between resistivity and circumference is inverse.The resistance of a substance decreases as the surface area of that substance increases. The greater circumference presents a greater conduction surface.AnswerThe original answer describes resistance, NOT resistivity. Additionally, it is incorrect because resistance is inversely-proportional to cross-sectional area NOT circumference!There is NO relationship between resistivity and the circumference of a material. Resisitivity is a constant at any given temperature and is completely unaffected by the dimensions of a material.
As size increases, the s/v ratio decreases-- the s/v ratio of a cubic cell 1mm on a side is 6, but the s/v ratio of a cubic cell 3mm on a side is only 2.
A smaller cell has a higher surface area to volume ratio. A reason for this is volume is cubic (3D) and surface area is 2D so when surface area increases a little bit, the volume increases exponentially. And when the surface area shrinks a little bit, the volume decreases exponentially.
it will increase more if you double the radius because the dimensions multiply and the curved surface has less area to cover as its height decreases and width increases
Pressure is inversely proportional to surface area. This means that as surface area decreases, pressure increases and vice versa, given a constant force. This relationship is described by the equation: Pressure = Force / Area.
increase as well, but at a slower rate than the volume. This is due to the relationship between surface area and volume in a cell. As the cell grows, its surface area to volume ratio decreases, causing it to become less efficient at exchanging nutrients and wastes with its environment.
As the depth increases, the density increases also.
as surface temperature increases, luminosity increases
The increase in surface area of reactants increases the contact between reacting molecules, atoms or ions so the rate of reaction becomes increased.
As depth increases, current speed typically decreases due to friction with the riverbed. This is known as the velocity gradient, where the flow is faster at the surface and slower towards the bottom. It's important to consider this relationship when studying river dynamics or designing structures in rivers.
It decreases
decreases i believe(:
As the particle size decreases, capillarity increases. Smaller particles have more surface area for capillary action to occur, allowing liquids to be drawn up higher through the small spaces between particles. This relationship is important for understanding how liquids move through porous materials such as soil or rock.
Porosity of surface soil typically decreases as particle size increases so permeability also decreases.
Air pressure decreases as altitude increases. This is because there is less air above pushing down on the surface at higher altitudes.
Pressure decreases