Well, first of all, that's no sphere.-- A sphere with surface area = 300 has volume = 488.6.-- A sphere needs surface area of 304.6 in order to have volume = 500.But this is just a ratio exercise, not a geometry problem, so we'll just use the numbersgiven in the question. It's just some sort of wacky humongous paramecium:Surface area = 300Volume = 500Ratio of (surface area)/(volume) = 300/500 = 0.6 .
A triangle is a flat area, therefore it has a surface area, not a volume. Density is unrelated to the problem; you would need some additional information to calculate the surface area.
Some of the many applications that pi is used in geometry are as follows:- Finding the area of a circle Finding the circumference of a circle Finding the volume of a sphere Finding the surface area of a sphere Finding the surface area and volume of a cylinder Finding the volume of a cone
The answer will depend on the information that you have: the volume of the cube, the total surface area, the surface area of one face, the major diagonal, a minor diagonal or some other characteristic.
Okay, there i'm Adriana and the answer is area and volume both have length x width. The difference is that volume measures with length x width x height and area with just Length x width. Hope you enjoy.www.middle/bryan.ops.org
Despite giving American English some rules and standards, why could Webster not keep it from changing
Yikes! Can you give some measurements? What do you mean by the volume - the volume of the wood used?
Some of many examples are:- Finding the circumference of a circle Finding the area of a circle Finding the surface area of a sphere Finding the volume of a sphere Finding the surface area of a cylinder Finding the volume of a cylinder Finding the volume of a cone Finding the surface area of a cone
A surface area and a volume are qualitatively different. If for some body the surface area and the volume are numerically equal in one unit of measurement, then in another unit of measurement they won't be the same. For example, a cube of 6 m x 6 m x 6 m cube has a a volume of 216 cubic meters, and an area of 216 square meters, but if you calculate volume and surface area in cubic centimeters, the volume is a number that is 100 times greater.
Calc. has many applications. A few of them are calculating: work, area, volume, gradient, center of mass, surface area...
As a cell grows bigger, its internal volume enlarges and the cell membrane expands. Unfortunately, the volume increases more rapidly than does the surface area, and so the relative amount of surface area available to pass materials to a unit volume of the cell steadily decreases.Finally, at some point, there is just enough surface available to service all the interior; if it is to survive, the cell must stop growing.The important point is that the surface area to the volume ratio gets smaller as the cell gets larger.Thus, if the cell grows beyond a certain limit, not enough material will be able to cross the membrane fast enough to accommodate the increased cellular volume.When this happens, the cell must divide into smaller cells with favorable surface area/volume ratios, or cease to function.That is why cells are so small.
Boss
They do. All matter that exists has some surface area. A carbon sample must have some surface area - not zero.
As a cell grows bigger, its internal volume enlarges and the cell membrane expands. Unfortunately, the volume increases more rapidly than does the surface area, and so the relative amount of surface area available to pass materials to a unit volume of the cell steadily decreases.Finally, at some point, there is just enough surface available to service all the interior; if it is to survive, the cell must stop growing.The important point is that the surface area to the volume ratio gets smaller as the cell gets larger.Thus, if the cell grows beyond a certain limit, not enough material will be able to cross the membrane fast enough to accommodate the increased cellular volume.When this happens, the cell must divide into smaller cells with favorable surface area/volume ratios, or cease to function.That is why cells are so small.
Large cells can increase their total surface area to volume ratio by forming intricate structures such as folds, microvilli, or branching extensions. These structures provide more surface area for interactions with the environment, allowing for efficient exchange of nutrients, gases, and waste products.
There are different types of geometry formulas such as polygon properties, area formulas, volume formulas, surface area formulas, circle formulas, and perimeter formulas.
The circumference of a circle divided by its diameter is the value of pi and pi has a wide range of uses some of which are:- Finding the volume of a sphere Finding the surface area of a sphere Finding the volume of a cone Finding the volume of a cylinder Finding the area of a circle Finding the circumference of a circle