The displacement method is the simplest.
And the word is prism, not prisim!
The displacement method is the simplest.
And the word is prism, not prisim!
The displacement method is the simplest.
And the word is prism, not prisim!
The displacement method is the simplest.
And the word is prism, not prisim!
You will need to find the surface area of each face and add them together.
Yes.
Yes, it is true that the surface area formula for a right cone cannot be directly applied to an oblique cone. While both have a circular base and a slant height, the lack of a perpendicular height in an oblique cone affects the calculations for lateral surface area and total surface area. To find the surface area of an oblique cone, you must account for its specific geometry, typically involving more complex calculations.
The formula for a rectangular prism's volume is: V=Bh. B meaning the area of the base, and h being the height.
There are no such words as "pentagenal" or "prisim". Please resubmit the question with words that do have a meaning.
2*area of triangular faces + perimeter of triangle*length of prism (not prisim).
dont even know
You will need to find the surface area of each face and add them together.
True. This is because the slant height of an oblique cone cannot be defined.
Yes.
V = base area × height
Rectangular Prisim 2x(area of front)+2x(area of side)+x2(area of length) Cube 2x(area of side)+2x(area of side)+2x(area of side)
A triangular prism always has 5 sides. It has two triangular bases and 3 rectangular faces. If the bases are not congruent it is called an oblique prism.
The formula for a rectangular prism's volume is: V=Bh. B meaning the area of the base, and h being the height.
False. The surface area formula for a right cone is not the same as the surface area formula for an oblique cone.
the answer is i dont know
Find the perpendicular height from the apex to the base.The volume is one third of the base area times the perpendicluar height.