It would help if the question was less obscure. What do you mean by "work"? How the surface area affects chemical processes (for example the surface area of catalysts), or diffusion, or surface areas and friction?
The respiration system adopts to the surface area to volume ratio to help the exchange of gases.
the formula in finding the area is AREA=(LENGTH)(WIDTH) (HEIGHT) A=L X W X H) The total area of the net is the same as the surface area of the original. By working out the area of each part of the net and adding them together you get the surface area of the original object.
The surface area of the 3-D figure will be the total of the areas of the 2-D figures.
It would help to know why what!
Measurement describes world using numbers.
It would help if the question was less obscure. What do you mean by "work"? How the surface area affects chemical processes (for example the surface area of catalysts), or diffusion, or surface areas and friction?
The respiration system adopts to the surface area to volume ratio to help the exchange of gases.
Well honey, to find the surface area of a triangular prism, you add the areas of all the individual faces. So, you calculate the area of the two triangular bases and the three rectangular sides, then add them all up. It's as simple as that, darling.
Idk someone help me!!!!
The oceans temperatures are warmer than the outside of it.
the formula in finding the area is AREA=(LENGTH)(WIDTH) (HEIGHT) A=L X W X H) The total area of the net is the same as the surface area of the original. By working out the area of each part of the net and adding them together you get the surface area of the original object.
The surface area of the 3-D figure will be the total of the areas of the 2-D figures.
It would help to know why what!
The skin surface is not large enough for big creatures such as humans; therefore we have structures in our lungs that greatly increase the surface area.
Oh yes, it most definitely will. They're equal.
A designer might need to know the volume and surface area of an object to determine the amount of materials needed for construction, to calculate the capacity of the object, and to optimize the design for cost efficiency and functionality. Understanding these measurements can help ensure that the design meets the intended specifications and requirements.