True Anomaly in Elliptic Orbit Given Radial Position, Eccentricity, and Angular Momentum Solution

STEP 0: Pre-Calculation Summary
Formula Used
True Anomaly in Elliptical Orbit = acos((Angular Momentum of Elliptic Orbit^2/([GM.Earth]*Radial Position in Elliptical Orbit)-1)/Eccentricity of Elliptical Orbit)
θe = acos((he^2/([GM.Earth]*re)-1)/ee)
This formula uses 1 Constants, 2 Functions, 4 Variables
Constants Used
[GM.Earth] - Earth’s Geocentric Gravitational Constant Value Taken As 3.986004418E+14
Functions Used
cos - Cosine of an angle is the ratio of the side adjacent to the angle to the hypotenuse of the triangle., cos(Angle)
acos - The inverse cosine function, is the inverse function of the cosine function. It is the function that takes a ratio as an input and returns the angle whose cosine is equal to that ratio., acos(Number)
Variables Used
True Anomaly in Elliptical Orbit - (Measured in Radian) - True Anomaly in Elliptical Orbit measures the angle between the object's current position and the perigee (the point of closest approach to the central body) when viewed from the focus of the orbit.
Angular Momentum of Elliptic Orbit - (Measured in Squaer Meter per Second) - Angular Momentum of Elliptic Orbit is a fundamental physical quantity that characterizes the rotational motion of an object in orbit around a celestial body, such as a planet or a star.
Radial Position in Elliptical Orbit - (Measured in Meter) - Radial Position in Elliptical Orbit refers to the distance of the satellite along the radial or straight-line direction connecting the satellite and the center of the body.
Eccentricity of Elliptical Orbit - Eccentricity of Elliptical Orbit is a measure of how stretched or elongated the orbit's shape is.
STEP 1: Convert Input(s) to Base Unit
Angular Momentum of Elliptic Orbit: 65750 Square Kilometer per Second --> 65750000000 Squaer Meter per Second (Check conversion ​here)
Radial Position in Elliptical Orbit: 18865 Kilometer --> 18865000 Meter (Check conversion ​here)
Eccentricity of Elliptical Orbit: 0.6 --> No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
θe = acos((he^2/([GM.Earth]*re)-1)/ee) --> acos((65750000000^2/([GM.Earth]*18865000)-1)/0.6)
Evaluating ... ...
θe = 2.35815230055879
STEP 3: Convert Result to Output's Unit
2.35815230055879 Radian -->135.11217427111 Degree (Check conversion ​here)
FINAL ANSWER
135.11217427111 135.1122 Degree <-- True Anomaly in Elliptical Orbit
(Calculation completed in 00.020 seconds)

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Created by Harsh Raj
Indian Institute of Technology, Kharagpur (IIT KGP), West Bengal
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Elliptical Orbit Parameters Calculators

Eccentricity of Elliptical Orbit given Apogee and Perigee
​ LaTeX ​ Go Eccentricity of Elliptical Orbit = (Apogee Radius in Elliptic Orbit-Perigee Radius in Elliptic Orbit)/(Apogee Radius in Elliptic Orbit+Perigee Radius in Elliptic Orbit)
Apogee Radius of Elliptic Orbit Given Angular Momentum and Eccentricity
​ LaTeX ​ Go Apogee Radius in Elliptic Orbit = Angular Momentum of Elliptic Orbit^2/([GM.Earth]*(1-Eccentricity of Elliptical Orbit))
Semimajor Axis of Elliptic Orbit given Apogee and Perigee Radii
​ LaTeX ​ Go Semi Major Axis of Elliptic Orbit = (Apogee Radius in Elliptic Orbit+Perigee Radius in Elliptic Orbit)/2
Angular Momentum in Elliptic Orbit Given Apogee Radius and Apogee Velocity
​ LaTeX ​ Go Angular Momentum of Elliptic Orbit = Apogee Radius in Elliptic Orbit*Velocity of Satellite at Apogee

True Anomaly in Elliptic Orbit Given Radial Position, Eccentricity, and Angular Momentum Formula

​LaTeX ​Go
True Anomaly in Elliptical Orbit = acos((Angular Momentum of Elliptic Orbit^2/([GM.Earth]*Radial Position in Elliptical Orbit)-1)/Eccentricity of Elliptical Orbit)
θe = acos((he^2/([GM.Earth]*re)-1)/ee)

What is parabolic trajectories ?

A parabolic trajectory is a type of path that an object follows under the influence of gravity when it has just enough velocity to escape the gravitational pull of a massive body, but not enough to achieve a stable orbit.

How to Calculate True Anomaly in Elliptic Orbit Given Radial Position, Eccentricity, and Angular Momentum?

True Anomaly in Elliptic Orbit Given Radial Position, Eccentricity, and Angular Momentum calculator uses True Anomaly in Elliptical Orbit = acos((Angular Momentum of Elliptic Orbit^2/([GM.Earth]*Radial Position in Elliptical Orbit)-1)/Eccentricity of Elliptical Orbit) to calculate the True Anomaly in Elliptical Orbit, True Anomaly in Elliptic Orbit Given Radial Position, Eccentricity, and Angular Momentum formula is defined as the angle between the position vector of an object in an elliptical orbit and its closest approach to the central body, providing a critical parameter for understanding orbital motion. True Anomaly in Elliptical Orbit is denoted by θe symbol.

How to calculate True Anomaly in Elliptic Orbit Given Radial Position, Eccentricity, and Angular Momentum using this online calculator? To use this online calculator for True Anomaly in Elliptic Orbit Given Radial Position, Eccentricity, and Angular Momentum, enter Angular Momentum of Elliptic Orbit (he), Radial Position in Elliptical Orbit (re) & Eccentricity of Elliptical Orbit (ee) and hit the calculate button. Here is how the True Anomaly in Elliptic Orbit Given Radial Position, Eccentricity, and Angular Momentum calculation can be explained with given input values -> 7741.357 = acos((65750000000^2/([GM.Earth]*18865000)-1)/0.6).

FAQ

What is True Anomaly in Elliptic Orbit Given Radial Position, Eccentricity, and Angular Momentum?
True Anomaly in Elliptic Orbit Given Radial Position, Eccentricity, and Angular Momentum formula is defined as the angle between the position vector of an object in an elliptical orbit and its closest approach to the central body, providing a critical parameter for understanding orbital motion and is represented as θe = acos((he^2/([GM.Earth]*re)-1)/ee) or True Anomaly in Elliptical Orbit = acos((Angular Momentum of Elliptic Orbit^2/([GM.Earth]*Radial Position in Elliptical Orbit)-1)/Eccentricity of Elliptical Orbit). Angular Momentum of Elliptic Orbit is a fundamental physical quantity that characterizes the rotational motion of an object in orbit around a celestial body, such as a planet or a star, Radial Position in Elliptical Orbit refers to the distance of the satellite along the radial or straight-line direction connecting the satellite and the center of the body & Eccentricity of Elliptical Orbit is a measure of how stretched or elongated the orbit's shape is.
How to calculate True Anomaly in Elliptic Orbit Given Radial Position, Eccentricity, and Angular Momentum?
True Anomaly in Elliptic Orbit Given Radial Position, Eccentricity, and Angular Momentum formula is defined as the angle between the position vector of an object in an elliptical orbit and its closest approach to the central body, providing a critical parameter for understanding orbital motion is calculated using True Anomaly in Elliptical Orbit = acos((Angular Momentum of Elliptic Orbit^2/([GM.Earth]*Radial Position in Elliptical Orbit)-1)/Eccentricity of Elliptical Orbit). To calculate True Anomaly in Elliptic Orbit Given Radial Position, Eccentricity, and Angular Momentum, you need Angular Momentum of Elliptic Orbit (he), Radial Position in Elliptical Orbit (re) & Eccentricity of Elliptical Orbit (ee). With our tool, you need to enter the respective value for Angular Momentum of Elliptic Orbit, Radial Position in Elliptical Orbit & Eccentricity of Elliptical Orbit 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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