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## x coordinate of focus of Parabola with its vertex opening horizontally Solution

STEP 0: Pre-Calculation Summary
Formula Used
x_coordinate_of_focus_of_parabola = X coordinate of vertex of Parabola+ (1/4*Focal distance of Parabola)
Xfocus_Parabola = Xvertex_Parabola+ (1/4*Dfocal_Parabola)
This formula uses 2 Variables
Variables Used
X coordinate of vertex of Parabola - X coordinate of vertex of Parabola is a point corresponding to vertex of Parabola and X-axis. (Measured in Hundred)
Focal distance of Parabola - Focal distance of Parabola is the distance from vertex of parabola to the focus. (Measured in Meter)
STEP 1: Convert Input(s) to Base Unit
X coordinate of vertex of Parabola: 2 Hundred --> 2 Hundred No Conversion Required
Focal distance of Parabola: 5 Meter --> 5 Meter No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
Xfocus_Parabola = Xvertex_Parabola+ (1/4*Dfocal_Parabola) --> 2+ (1/4*5)
Evaluating ... ...
Xfocus_Parabola = 3.25
STEP 3: Convert Result to Output's Unit
3.25 Hundred --> No Conversion Required
3.25 Hundred <-- X coordinate of focus of Parabola
(Calculation completed in 00.000 seconds)

## < 10+ Coordinates of Parabola Calculators

x coordinate of focus of Parabola with its vertex opening horizontally
x_coordinate_of_focus_of_parabola = X coordinate of vertex of Parabola+ (1/4*Focal distance of Parabola) Go
x coordinate of point of tangency of Parabola
x_coordinate_1 = (Focal distance of Parabola/Slope of Line^2) Go
x coordinate of focus of Parabola with its vertex at opening vertically
x_coordinate_of_focus_of_parabola = X coordinate of vertex of Parabola Go
y coordinate of extremities of latusractum of Parabola opening to right
y_coordinate_1 = (2*Focal distance of Parabola) Go
y coordinate of extremities of latusractum of Parabola opening downwards
y_coordinate_1 = -(Focal distance of Parabola) Go
x coordinate of extremities of latusractum of Parabola opening to left
x_coordinate_1 = -(Focal distance of Parabola) Go
x coordinate of extremities of latusractum of Parabola opening downwards
x_coordinate_1 = 2*Focal distance of Parabola Go
x coordinate of extremities of latusractum of Parabola opening upwards
x_coordinate_1 = 2*Focal distance of Parabola Go
x coordinate of extremities of latusractum of Parabola opening to right
x_coordinate_1 = Focal distance of Parabola Go
y coordinate of extremities of latusractum of Parabola opening upwards
y_coordinate_1 = Focal distance of Parabola Go

### x coordinate of focus of Parabola with its vertex opening horizontally Formula

x_coordinate_of_focus_of_parabola = X coordinate of vertex of Parabola+ (1/4*Focal distance of Parabola)
Xfocus_Parabola = Xvertex_Parabola+ (1/4*Dfocal_Parabola)

## How to get the x coordinate of focus of parabola with its vertex at ( h, k) opening horizontally?

A parabola is the set of points in a plane that are the same distance from a given point and a given line in that plane. The given point is called the focus.

## How to Calculate x coordinate of focus of Parabola with its vertex opening horizontally?

x coordinate of focus of Parabola with its vertex opening horizontally calculator uses x_coordinate_of_focus_of_parabola = X coordinate of vertex of Parabola+ (1/4*Focal distance of Parabola) to calculate the X coordinate of focus of Parabola, x coordinate of focus of Parabola with its vertex opening horizontally formula is defined as is the point on x axis of parabola corresponding to focus. X coordinate of focus of Parabola and is denoted by Xfocus_Parabola symbol.

How to calculate x coordinate of focus of Parabola with its vertex opening horizontally using this online calculator? To use this online calculator for x coordinate of focus of Parabola with its vertex opening horizontally, enter X coordinate of vertex of Parabola (Xvertex_Parabola) & Focal distance of Parabola (Dfocal_Parabola) and hit the calculate button. Here is how the x coordinate of focus of Parabola with its vertex opening horizontally calculation can be explained with given input values -> 3.25 = 2+ (1/4*5).

### FAQ

What is x coordinate of focus of Parabola with its vertex opening horizontally?
x coordinate of focus of Parabola with its vertex opening horizontally formula is defined as is the point on x axis of parabola corresponding to focus and is represented as Xfocus_Parabola = Xvertex_Parabola+ (1/4*Dfocal_Parabola) or x_coordinate_of_focus_of_parabola = X coordinate of vertex of Parabola+ (1/4*Focal distance of Parabola). X coordinate of vertex of Parabola is a point corresponding to vertex of Parabola and X-axis & Focal distance of Parabola is the distance from vertex of parabola to the focus.
How to calculate x coordinate of focus of Parabola with its vertex opening horizontally?
x coordinate of focus of Parabola with its vertex opening horizontally formula is defined as is the point on x axis of parabola corresponding to focus is calculated using x_coordinate_of_focus_of_parabola = X coordinate of vertex of Parabola+ (1/4*Focal distance of Parabola). To calculate x coordinate of focus of Parabola with its vertex opening horizontally, you need X coordinate of vertex of Parabola (Xvertex_Parabola) & Focal distance of Parabola (Dfocal_Parabola). With our tool, you need to enter the respective value for X coordinate of vertex of Parabola & Focal distance of Parabola 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 X coordinate of focus of Parabola?
In this formula, X coordinate of focus of Parabola uses X coordinate of vertex of Parabola & Focal distance of Parabola. We can use 10 other way(s) to calculate the same, which is/are as follows -
• x_coordinate_1 = 2*Focal distance of Parabola
• x_coordinate_1 = 2*Focal distance of Parabola
• x_coordinate_1 = Focal distance of Parabola
• x_coordinate_1 = -(Focal distance of Parabola)
• x_coordinate_of_focus_of_parabola = X coordinate of vertex of Parabola+ (1/4*Focal distance of Parabola)
• x_coordinate_of_focus_of_parabola = X coordinate of vertex of Parabola
• x_coordinate_1 = (Focal distance of Parabola/Slope of Line^2)
• y_coordinate_1 = -(Focal distance of Parabola)
• y_coordinate_1 = Focal distance of Parabola
• y_coordinate_1 = (2*Focal distance of Parabola)
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