Height of parabolic section that can be cut from a cone for maximum area of parabolic section Calculator

Category	Math ↺
Math	Geometry ↺
Geometry	Circumscribed Solids ↺
Circumscribed-Solids	Circumscribed Cone ↺

✖Slant Height is the height of a cone from the vertex to the periphery (rather than the center) of the base.ⓘ Slant Height [s]

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✖Height is the distance between the lowest and highest points of a person standing upright.ⓘ Height of parabolic section that can be cut from a cone for maximum area of parabolic section [h]

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Anshika Arya

National Institute Of Technology (NIT), Hamirpur

Anshika Arya has created this Calculator and 400+ more calculators!

< 11 Other formulas that you can solve using the same Inputs

Total frictional torque on conical pivot bearing considering uniform pressure when slant height of cone is given

Torque=2*Coefficient of Friction*Load transmitted over the bearing surface*Radius of the shaft*Slant Height/3 GO

Total frictional torque on conical pivot bearing considering uniform wear when slant height of cone

Torque=Coefficient of Friction*Load transmitted over the bearing surface*Slant Height/2 GO

Lateral edge length of a Right square pyramid when side length and slant height are given

Length of edge=sqrt(Side^2/2+(Slant Height^2-Side^2/4)) GO

Curved Surface area of Frustum of right circular cone

Curved Surface Area=pi*(Radius 1+Radius 2)*Slant Height GO

Total Surface Area of Right circular cone

Total Surface Area=pi*Radius*(Slant Height+Radius) GO

Volume of a right square pyramid when side length and slant height are given

Volume=(Side^2*sqrt(Slant Height^2-Side^2/4))/3 GO

Curved Surface Area of Right circular cone

Curved Surface Area=pi*Radius*Slant Height GO

Lateral surface area of a Right square pyramid when side length and slant height are given

Lateral Surface Area=2*Side*Slant Height GO

Surface area of a Right square pyramid when side length and slant height are given

Surface Area=Side^2+2*Side*Slant Height GO

Height of a right square pyramid when slant height and side length are given

Height=sqrt(Slant Height^2-Side^2/4) GO

Side length of a Right square pyramid when slant height and height are given

Side=2*sqrt(Slant Height^2-Height^2) GO

< 11 Other formulas that calculate the same Output

Height of a trapezoid when area and sum of parallel sides are given

Height=(2*Area)/Sum of parallel sides of a trapezoid GO

Height of a triangular prism when lateral surface area is given

Height=Lateral Surface Area/(Side A+Side B+Side C) GO

Height of an isosceles trapezoid

Height=sqrt(Side C^2-0.25*(Side A-Side B)^2) GO

Altitude of an isosceles triangle

Height=sqrt((Side A)^2+((Side B)^2/4)) GO

Height of a triangular prism when base and volume are given

Height=(2*Volume)/(Base*Length) GO

Height of an Equilateral square pyramid

Height=Length of edge/sqrt(2) GO

Altitude of the largest right pyramid with a square base that can be inscribed in a sphere of radius a

Height=4*Radius of Sphere/3 GO

Height of Cone inscribed in a sphere for maximum volume of cone in terms of radius of sphere

Height=4*Radius of Sphere/3 GO

Height of Cone circumscribing a sphere such that volume of cone is minimum

Height=4*Radius of Sphere GO

Height of a circular cylinder of maximum convex surface area in a given circular cone

Height=Height of Cone/2 GO

Height of Largest right circular cylinder that can be inscribed within a cone

Height=Height of Cone/3 GO

Height of parabolic section that can be cut from a cone for maximum area of parabolic section Formula

Height=0.75*Slant Height

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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

Distance from the minor arc of cone of parabolic section that can be cut from a cone for maximum area of parabolic section GO

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

What is cone?

A cone is a shape formed by using a set of line segments or the lines which connects a common point, called the apex or vertex, to all the points of a circular base(which does not contain the apex). The distance from the vertex of the cone to the base is the height of the cone.

What is the equation of a parabola?

You recognize the equation of a parabola as being y = x^2 or. y = ax^2 + bx + c from your study of quadratics. And, of course, these remain popular equation forms of a parabola. But, if we examine a parabola in relation to its focal point (focus) and directrix, we can determine more information about the parabola.

How to Calculate Height of parabolic section that can be cut from a cone for maximum area of parabolic section?

Height of parabolic section that can be cut from a cone for maximum area of parabolic section calculator uses Height=0.75*Slant Height to calculate the Height, Height of parabolic section that can be cut from a cone for maximum area of parabolic section is measure of vertical distance, either vertical extent or vertical position. Height and is denoted by h symbol.

How to calculate Height of parabolic section that can be cut from a cone for maximum area of parabolic section using this online calculator? To use this online calculator for Height of parabolic section that can be cut from a cone for maximum area of parabolic section, enter Slant Height (s) and hit the calculate button. Here is how the Height of parabolic section that can be cut from a cone for maximum area of parabolic section calculation can be explained with given input values -> 3.75 = 0.75*5.

FAQ

What is Height of parabolic section that can be cut from a cone for maximum area of parabolic section?

Height of parabolic section that can be cut from a cone for maximum area of parabolic section is measure of vertical distance, either vertical extent or vertical position and is represented as h=0.75*s or Height=0.75*Slant Height. Slant Height is the height of a cone from the vertex to the periphery (rather than the center) of the base.

How to calculate Height of parabolic section that can be cut from a cone for maximum area of parabolic section?

Height of parabolic section that can be cut from a cone for maximum area of parabolic section is measure of vertical distance, either vertical extent or vertical position is calculated using Height=0.75*Slant Height. To calculate Height of parabolic section that can be cut from a cone for maximum area of parabolic section, you need Slant Height (s). With our tool, you need to enter the respective value for Slant Height 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 Height?

In this formula, Height uses Slant Height. We can use 11 other way(s) to calculate the same, which is/are as follows -

Height=4*Radius of Sphere/3
Height=4*Radius of Sphere
Height=Height of Cone/3
Height=4*Radius of Sphere/3
Height=Height of Cone/2
Height=sqrt(Side C^2-0.25*(Side A-Side B)^2)
Height=(2*Area)/Sum of parallel sides of a trapezoid
Height=sqrt((Side A)^2+((Side B)^2/4))
Height=(2*Volume)/(Base*Length)
Height=Lateral Surface Area/(Side A+Side B+Side C)
Height=Length of edge/sqrt(2)

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