Anshika Arya
National Institute Of Technology (NIT), Hamirpur
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11 Other formulas that you can solve using the same Inputs

Volume of a Conical Frustum
Volume=(1/3)*pi*Height*(Radius 1^2+Radius 2^2+(Radius 1*Radius 2)) GO
Total Surface Area of a Cone
Total Surface Area=pi*Radius*(Radius+sqrt(Radius^2+Height^2)) GO
Lateral Surface Area of a Cone
Lateral Surface Area=pi*Radius*sqrt(Radius^2+Height^2) GO
Total Surface Area of a Cylinder
Total Surface Area=2*pi*Radius*(Height+Radius) GO
Lateral Surface Area of a Cylinder
Lateral Surface Area=2*pi*Radius*Height GO
Volume of a Circular Cone
Volume=(1/3)*pi*(Radius)^2*Height GO
Area of a Trapezoid
Area=((Base A+Base B)/2)*Height GO
Volume of a Circular Cylinder
Volume=pi*(Radius)^2*Height GO
Volume of a Pyramid
Volume=(1/3)*Side^2*Height GO
Area of a Triangle when base and height are given
Area=1/2*Base*Height GO
Area of a Parallelogram when base and height are given
Area=Base*Height GO

11 Other formulas that calculate the same Output

Area of a Triangle when sides are given
Area=sqrt((Side A+Side B+Side C)*(Side B+Side C-Side A)*(Side A-Side B+Side C)*(Side A+Side B-Side C))/4 GO
Area of a Rhombus when side and diagonals are given
Area=(1/2)*(Diagonal A)*(sqrt(4*Side^2-(Diagonal A)^2)) GO
Area of a Rectangle when breadth and diagonal are given
Area=Breadth*(sqrt((Diagonal)^2-(Breadth)^2)) GO
Area of a Rectangle when length and diagonal are given
Area=Length*(sqrt((Diagonal)^2-(Length)^2)) GO
Area of a Trapezoid
Area=((Base A+Base B)/2)*Height GO
Area of a Rhombus when diagonals are given
Area=(Diagonal A*Diagonal B)/2 GO
Area of a Square when diagonal is given
Area=1/2*(Diagonal)^2 GO
Area of a Triangle when base and height are given
Area=1/2*Base*Height GO
Area of a Rectangle when length and breadth are given
Area=Length*Breadth GO
Area of a Parallelogram when base and height are given
Area=Base*Height GO
Area of a Square when side is given
Area=(Side A)^2 GO

The maximum area of parabolic segment that can be cut from a cone Formula

Area=4*Base*Height/3
More formulas
The Radius (R) of a sphere that circumscribes a cube with side length S GO
Volume of a circumscribed sphere in terms of cube Side length GO
Diameter of circumscribing sphere when diameter and height of circumscribed cylinder is known GO
Volume of Sphere circumscribing a cylinder GO
Surface Area of Sphere circumscribing a cylinder GO
Volume of cylinder circumscribing a sphere when radius of sphere is known GO
Surface Area of Cylinder circumscribing a sphere when radius of sphere is known GO
Radius of Cone circumscribing a sphere such that volume of cone is minimum GO
Height of Cone circumscribing a sphere such that volume of cone is minimum GO
Volume of Cone circumscribing a sphere such that volume of cone is minimum GO
Base Length of parabolic section that can be cut from a cone for maximum area of parabolic section GO
Height of parabolic section that can be cut from a cone for maximum area of parabolic section GO
Distance from the minor arc of cone of parabolic section that can be cut from a cone for maximum area of parabolic section GO

What is the name of a cone shape?

A cone is a solid that has a circular base and a a single vertex. If the vertex is over the center of the base, it is called a right cone. If it is not, it is called an oblique cone. An object that is shaped like a cone is said to be 'conical'.

What is an example of a parabola in real life?

When liquid is rotated, the forces of gravity result in the liquid forming a parabola-like shape. The most common example is when you stir up orange juice in a glass by rotating it round its axis. The cables that act as suspension on the Golden Gate Bridge are parabolas.

How to Calculate The maximum area of parabolic segment that can be cut from a cone?

The maximum area of parabolic segment that can be cut from a cone calculator uses Area=4*Base*Height/3 to calculate the Area, The maximum area of parabolic segment that can be cut from a cone is the maximum number of unit squares that cover the surface of a closed figure. Area and is denoted by A symbol.

How to calculate The maximum area of parabolic segment that can be cut from a cone using this online calculator? To use this online calculator for The maximum area of parabolic segment that can be cut from a cone, enter Height (h) and Base (b) and hit the calculate button. Here is how the The maximum area of parabolic segment that can be cut from a cone calculation can be explained with given input values -> 32 = 4*2*12/3.

FAQ

What is The maximum area of parabolic segment that can be cut from a cone?
The maximum area of parabolic segment that can be cut from a cone is the maximum number of unit squares that cover the surface of a closed figure and is represented as A=4*b*h/3 or Area=4*Base*Height/3. Height is the distance between the lowest and highest points of a person standing upright and The base is the lowest part or edge of something, especially the part on which it rests or is supported.
How to calculate The maximum area of parabolic segment that can be cut from a cone?
The maximum area of parabolic segment that can be cut from a cone is the maximum number of unit squares that cover the surface of a closed figure is calculated using Area=4*Base*Height/3. To calculate The maximum area of parabolic segment that can be cut from a cone, you need Height (h) and Base (b). With our tool, you need to enter the respective value for Height and Base and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
How many ways are there to calculate Area?
In this formula, Area uses Height and Base. We can use 11 other way(s) to calculate the same, which is/are as follows -
  • Area=1/2*Base*Height
  • Area=sqrt((Side A+Side B+Side C)*(Side B+Side C-Side A)*(Side A-Side B+Side C)*(Side A+Side B-Side C))/4
  • Area=Length*Breadth
  • Area=Length*(sqrt((Diagonal)^2-(Length)^2))
  • Area=Breadth*(sqrt((Diagonal)^2-(Breadth)^2))
  • Area=(Side A)^2
  • Area=1/2*(Diagonal)^2
  • Area=(Diagonal A*Diagonal B)/2
  • Area=(1/2)*(Diagonal A)*(sqrt(4*Side^2-(Diagonal A)^2))
  • Area=Base*Height
  • Area=((Base A+Base B)/2)*Height
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