There are a lot of different sizes of traffic cones. Without more information, it's impossible to answer.
The total surface area! The total surface area! The total surface area! The total surface area!
It should be relatively easy to find the surface area of a box when you are given the surface area.
It depends on the surface area of what!
It is the area of the exposed surface. So if you take a cube, the surface area is the sum of the areas of each of the 6 faces. They are all the same in the case of a cube. In general, add up the surface area of each exposed surface and this is the total surface area.
you do stuff
peanut butter
math and arithmetic
The relationship between the surface areas of cylinders, cones, and spheres is that the surface area of a cylinder is equal to the sum of the areas of its two circular bases and its curved surface area, the surface area of a cone is equal to the sum of the area of its circular base and its curved surface area, and the surface area of a sphere is equal to four times the area of its circular base.
They both depend on circumference not perimeter.
It is possible for some cones A and cylinders B. But in general, the assertion is false.
No idea. It depends on what you mean by pryamids!
Not sure about pryamids, but pyramids are definitely NOT triangles.
There are a lot of different sizes of traffic cones. Without more information, it's impossible to answer.
The most general difference is: > The formula for the surface area of anything with a curved surface and edge will involve 'pi'. > The formula for the surface area of anything with only flat surfaces and straight edges won't.
7:3
The biggest impact I think of: Calculus is how people invented the formulas to get the volume and surface area of spheres/cones/pyramids.