Nishan Poojary
Shri Madhwa Vadiraja Institute of Technology and Management (SMVITM), Udupi
Nishan Poojary has created this Calculator and 400+ more calculators!
Anamika Mittal
Vellore Institute of Technology (VIT), Bhopal
Anamika Mittal has verified this Calculator and 200+ more calculators!

11 Other formulas that you can solve using the same Inputs

Location factor at distance X of heat exchanger
Location factor=(Convective heat transfer coefficient*Surface Area*Distance from Point to YY Axis)/(Specific heat of fluid*Mass flowrate) GO
Heat gain through partition, floor, or ceiling
Heat gain=Heat transfer coefficient for interior structure*Surface Area*Temperature Difference GO
Edge length of truncated cube given surface area
Edge length=sqrt(Surface Area/(2*(6+(6*sqrt(2))+sqrt(3)))) GO
Design Surface Loading Rate when Surface Area of Circular Settling Tank is Given
Surface loading rate=(Peak Discharge/Surface Area) GO
Peak Discharge when Surface Area of Circular Settling Tank is Given
Peak Discharge=(Surface Area*Surface loading rate) GO
Surface area of torus
Surface Area=4*(pi^2)*Major radius*Minor radius GO
Surface tension
Surface Tension=(surface energy)/(Surface Area) GO
Edge length of cuboctahedron given surface area
Edge length=sqrt(Surface Area/(2*(3+sqrt(3)))) GO
Volume of torus
Volume=2*(pi^2)*Major radius*(Minor radius^2) GO
Surface Energy When Surface Tension Is Given
surface energy=Surface Tension*Surface Area GO
Edge length of truncated tetrahedron given surface area
Side=sqrt(Surface Area/(7*sqrt(3))) GO

Major radius of torus given surface area and minor radius Formula

Major radius=(Surface Area)/(4*(pi^2)*Minor radius)
R=(SA)/(4*(pi^2)*r)
More formulas
Volume of a Cube GO
Surface Area of a Cube GO
Surface Area of a Rectangular Prism GO
Surface Area of a Sphere GO
Volume of a Rectangular Prism GO
Diagonal of a Cube GO
Volume of Regular Dodecahedron GO
Volume of Regular Icosahedron GO
Volume of Regular Octahedron GO
Volume of Regular Tetrahedron GO
Surface Area of Dodecahedron GO
Surface Area of Icosahedron GO
Surface Area of Regular Octahedron GO
Surface Area of Regular Tetrahedron GO
Volume of a general prism GO
Volume of a triangular prism GO
Surface Area of Cuboid GO
Surface Area of Prisms GO
Surface Area of triangular prism GO
The maximum face diagonal length for cubes with a side length S GO
Volume of Sphere circumscribing a cylinder GO
Lateral Surface Area of Cuboid GO
Lateral surface area of cube GO
Volume of Cone GO
Side of Largest Cube that can be inscribed within a right circular cylinder of height h GO
Total Surface Area of Largest Cube that can be inscribed within a right circular cylinder when height of cylinder is given GO
Lateral Surface Area of Largest Cube that can be inscribed within a right circular cylinder when height of cylinder is given GO
Volume of Largest cube that can be inscribed within a right circular cylinder when height of cylinder is given GO
Dihedral Angle of Platonic Solids GO
Radius of circumscribed sphere in regular tetrahedron GO
Radius of circumscribed sphere around platonic solids GO
Radius of circumscribed sphere in a cube GO
Radius of circumscribed sphere in a regular octahedron GO
Radius of circumscribed sphere in a regular dodecahedron GO
Radius of circumscribed sphere in a regular icosahedron GO
Radius of inscribed sphere inside platonic solids GO
Radius of inscribed sphere inside the regular octahedron GO
Radius of inscribed sphere inside regular tetrahedron GO
Radius of inscribed sphere inside the regular dodecahedron GO
Radius of inscribed sphere inside the regular icosahedron GO
Surface Area of Platonic Solids GO
Volume of Platonic Solids GO
Volume of Hexagonal Prism GO
Volume of Pentagonal Prism GO
Surface Area of Hexagonal Prism GO
Surface Area of Pentagonal Prism GO
Base Area of Pentagonal Prism GO
Base Area of Triangular Prism GO
Base Area of Rectangular Prism GO
Base Area of Hexagonal Prism GO
Volume of a triangular prism when side lengths are given GO
Volume of a triangular prism when two side lengths and an angle are given GO
Volume of a triangular prism when two angles and a side between them are given GO
total surface area of pentagonal pyramid GO
volume of pentagonal pyramid GO
Volume of Hollow Cylinder GO
Curved Surface Area of Right circular cone GO
Total Surface Area of Right circular cone GO
Volume of Right circular cone GO
Slant Height of Right circular cone GO
Slant height of Frustum of right circular cone GO
Curved Surface area of Frustum of right circular cone GO
Total Surface Area of Frustum of right circular cone GO
Radius of Sphere GO
Diameter of Sphere GO
Diagonal of Rectangular prism GO
Edge of Tetrahedron GO
Face area of Tetrahedron GO
Height of a Tetrahedron GO
Edge of Regular Octahedron GO
Volume of cube given TSA GO
Inner surface area of the hollow cylinder GO
Outer surface of the hollows cylinder GO
Length of cube GO
Breadth of cube GO
Height of the cube GO
Height of a hollow cylinder GO
Inner radius of a hallow cylinder GO
Outer radius of hollow cylinder GO
Height of right circular cylinder GO
Surface area of torus GO
Volume of torus GO
Side of cube given TSA GO
LSA of cube given TSA GO
Diagonal of cube given LSA GO
Side of cube given LSA GO
TSA of cube given LSA GO
Side of cube given diagonal GO
TSA of cube given diagonal GO
LSA of cube given diagonal GO
Volume of cube given diagonal GO
Edge length tetrahedron of truncated tetrahedron GO
Surface area of truncated tetrahedron GO
edge length of truncated tetrahedron given edge length of tetrahedron GO
Edge length of truncated tetrahedron given surface area GO
Volume of truncated tetrahedron GO
Edge length of truncated tetrahedron given volume GO
Circumsphere radius of truncated tetrahedron GO
Midsphere radius of truncated tetrahedron GO
Surface to volume ratio of truncated tetrahedron GO
Surface area of cuboctahedron GO
Edge length of cuboctahedron given surface area GO
Volume of cuboctahedron GO
Edge length of cuboctahedron given volume GO
Circumsphere radius of cuboctahedron GO
Midsphere radius of cuboctahedron GO
Surface to volume of cuboctahedron GO
Edge length octahedron of truncated octahedron GO
Surface area of truncated octahedron GO
edge length of truncated octahedron given surface area GO
Volume of truncated octahedron GO
Edge length of truncated octahedron given volume GO
Circumsphere radius of truncated octahedron GO
Midsphere radius of truncated octahedron GO
Surface to volume ratio of truncated octahedron GO
Space diagonal of cuboid GO
First edge of cuboid given space diagonal GO
Third edge of cuboid given space diagonal GO
Volume of cuboid GO
Volume of half cuboid GO
First edge of cuboid given volume GO
Second edge of cuboid given volume GO
Third edge of cuboid given volume GO

What is a torus?

Torus is a surface or solid formed by rotating a closed curve, especially a circle, about a line which lies in the same plane but does not intersect it. It usually looks like a ring.

How to Calculate Major radius of torus given surface area and minor radius?

Major radius of torus given surface area and minor radius calculator uses Major radius=(Surface Area)/(4*(pi^2)*Minor radius) to calculate the Major radius, The Major radius of torus given surface area and minor radius formula is defined by the formula R = S /(4 × (π ^2 ) × r) where R is the major radius of the torus r is the minor radius of the torus. Major radius and is denoted by R symbol.

How to calculate Major radius of torus given surface area and minor radius using this online calculator? To use this online calculator for Major radius of torus given surface area and minor radius, enter Surface Area (SA) and Minor radius (r) and hit the calculate button. Here is how the Major radius of torus given surface area and minor radius calculation can be explained with given input values -> 0.02533 = (50)/(4*(pi^2)*50).

FAQ

What is Major radius of torus given surface area and minor radius?
The Major radius of torus given surface area and minor radius formula is defined by the formula R = S /(4 × (π ^2 ) × r) where R is the major radius of the torus r is the minor radius of the torus and is represented as R=(SA)/(4*(pi^2)*r) or Major radius=(Surface Area)/(4*(pi^2)*Minor radius). The surface area of a three-dimensional shape is the sum of all of the surface areas of each of the sides and Minor radius is the radius of the small circle revolving around the major circle.
How to calculate Major radius of torus given surface area and minor radius?
The Major radius of torus given surface area and minor radius formula is defined by the formula R = S /(4 × (π ^2 ) × r) where R is the major radius of the torus r is the minor radius of the torus is calculated using Major radius=(Surface Area)/(4*(pi^2)*Minor radius). To calculate Major radius of torus given surface area and minor radius, you need Surface Area (SA) and Minor radius (r). With our tool, you need to enter the respective value for Surface Area and Minor radius and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
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