Attractive Force Potentials per unit Mass for Moon Solution

STEP 0: Pre-Calculation Summary
Formula Used
Attractive Force Potentials for Moon = (Universal Constant*Mass of the Moon)/Distance of Point
VM = (f*M)/rS/MX
This formula uses 4 Variables
Variables Used
Attractive Force Potentials for Moon - Attractive Force Potentials for Moon refers to the gravitational force exerted by the Moon on other objects, such as the Earth or objects on the Earth's surface.
Universal Constant - Universal Constant is a physical constant that is thought to be universal in its application in terms of Radius of the Earth and Acceleration of Gravity.
Mass of the Moon - (Measured in Kilogram) - Mass of the Moon refers to the total quantity of matter contained in the Moon, which is a measure of its inertia and gravitational influence [7.34767309 × 10^22 kilograms].
Distance of Point - (Measured in Meter) - Distance of Point refers to the point located on the surface of the Earth to the center of the Sun or the Moon.
STEP 1: Convert Input(s) to Base Unit
Universal Constant: 2 --> No Conversion Required
Mass of the Moon: 7.35E+22 Kilogram --> 7.35E+22 Kilogram No Conversion Required
Distance of Point: 256 Kilometer --> 256000 Meter (Check conversion ​here)
STEP 2: Evaluate Formula
Substituting Input Values in Formula
VM = (f*M)/rS/MX --> (2*7.35E+22)/256000
Evaluating ... ...
VM = 5.7421875E+17
STEP 3: Convert Result to Output's Unit
5.7421875E+17 --> No Conversion Required
FINAL ANSWER
5.7421875E+17 5.7E+17 <-- Attractive Force Potentials for Moon
(Calculation completed in 00.004 seconds)

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Created by Mithila Muthamma PA
Coorg Institute of Technology (CIT), Coorg
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Attractive Force Potentials Calculators

Attractive Force Potentials per unit Mass for Moon
​ LaTeX ​ Go Attractive Force Potentials for Moon = (Universal Constant*Mass of the Moon)/Distance of Point
Mass of Moon given Attractive Force Potentials
​ LaTeX ​ Go Mass of the Moon = (Attractive Force Potentials for Moon*Distance of Point)/Universal Constant
Attractive Force Potentials per unit Mass for Sun
​ LaTeX ​ Go Attractive Force Potentials for Sun = (Universal Constant*Mass of the Sun)/Distance of Point
Mass of Sun given Attractive Force Potentials
​ LaTeX ​ Go Mass of the Sun = (Attractive Force Potentials for Sun*Distance of Point)/Universal Constant

Attractive Force Potentials per unit Mass for Moon Formula

​LaTeX ​Go
Attractive Force Potentials for Moon = (Universal Constant*Mass of the Moon)/Distance of Point
VM = (f*M)/rS/MX

What do you mean by Tidal Force?

The Tidal Force is a gravitational effect that stretches a body along the line towards the center of mass of another body due to a gradient (difference in strength) in gravitational field from the other body; it is responsible for diverse phenomena, including tides, tidal locking, breaking apart of celestial bodies.

How to Calculate Attractive Force Potentials per unit Mass for Moon?

Attractive Force Potentials per unit Mass for Moon calculator uses Attractive Force Potentials for Moon = (Universal Constant*Mass of the Moon)/Distance of Point to calculate the Attractive Force Potentials for Moon, The Attractive Force Potentials per unit Mass for Moon tends to make potential energy of system decrease. As atoms first begin to interact, attractive force is stronger than repulsive force and so potential energy of system decreases. Attractive Force Potentials for Moon is denoted by VM symbol.

How to calculate Attractive Force Potentials per unit Mass for Moon using this online calculator? To use this online calculator for Attractive Force Potentials per unit Mass for Moon, enter Universal Constant (f), Mass of the Moon (M) & Distance of Point (rS/MX) and hit the calculate button. Here is how the Attractive Force Potentials per unit Mass for Moon calculation can be explained with given input values -> 5.7E+17 = (2*7.35E+22)/256000.

FAQ

What is Attractive Force Potentials per unit Mass for Moon?
The Attractive Force Potentials per unit Mass for Moon tends to make potential energy of system decrease. As atoms first begin to interact, attractive force is stronger than repulsive force and so potential energy of system decreases and is represented as VM = (f*M)/rS/MX or Attractive Force Potentials for Moon = (Universal Constant*Mass of the Moon)/Distance of Point. Universal Constant is a physical constant that is thought to be universal in its application in terms of Radius of the Earth and Acceleration of Gravity, Mass of the Moon refers to the total quantity of matter contained in the Moon, which is a measure of its inertia and gravitational influence [7.34767309 × 10^22 kilograms] & Distance of Point refers to the point located on the surface of the Earth to the center of the Sun or the Moon.
How to calculate Attractive Force Potentials per unit Mass for Moon?
The Attractive Force Potentials per unit Mass for Moon tends to make potential energy of system decrease. As atoms first begin to interact, attractive force is stronger than repulsive force and so potential energy of system decreases is calculated using Attractive Force Potentials for Moon = (Universal Constant*Mass of the Moon)/Distance of Point. To calculate Attractive Force Potentials per unit Mass for Moon, you need Universal Constant (f), Mass of the Moon (M) & Distance of Point (rS/MX). With our tool, you need to enter the respective value for Universal Constant, Mass of the Moon & Distance of Point 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 Attractive Force Potentials for Moon?
In this formula, Attractive Force Potentials for Moon uses Universal Constant, Mass of the Moon & Distance of Point. We can use 2 other way(s) to calculate the same, which is/are as follows -
  • Attractive Force Potentials for Moon = Universal Constant*Mass of the Moon*((1/Distance of Point)-(1/Distance from center of Earth to center of Moon)-([Earth-R]*cos(Angle made by the Distance of Point)/Distance from center of Earth to center of Moon^2))
  • Attractive Force Potentials for Moon = (Universal Constant*Mass of the Moon)*(Mean Radius of the Earth^2/Distance from center of Earth to center of Moon^3)*Harmonic Polynomial Expansion Terms for Moon
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