The dimensions given do not support Pythagoras' theorem for a right triangular prism which will have a right angle triangle at each end
573
Assume that a = apothem length of the triangular prism, b = base length of the triangular prism, and h = height of the triangular prism. The formulas to find the surface area is SA = ab + 3bh.
The answer will depend on what aspect the formula is for: the surface area or the volume being the most obvious options.
Surface area is squared; volume is cubed.
2*area of triangular base + perimeter of triangle*length of prism.
the defnition of find the surface area of triangular prism and cylinder
573
Assume that a = apothem length of the triangular prism, b = base length of the triangular prism, and h = height of the triangular prism. The formulas to find the surface area is SA = ab + 3bh.
To find the surface area of an equilateral triangular prism you take the area of the rectangular sides and the triangular bases and add them up and your done.
False, the prism can be of any length.
The answer will depend on what aspect the formula is for: the surface area or the volume being the most obvious options.
Surface area is squared; volume is cubed.
2*area of triangular base + perimeter of triangle*length of prism.
To calculate the surface area of the equilateral triangular-based prism, you need to calculate the area of the equilateral triangle and all the other sides of the prism. The total area of all the phases will give the total surface are of an equilateral triangular based prism.
48 cm2
30cm
Yes it is possible.