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Mass of Moon given Attractive Force Potentials Formula

GoMass of Moon given Attractive Force Potentials with Harmonic Polynomial Expansion Formula

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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]. Check FAQs

M = \frac{V M \cdot r S/MX}{f}

M - Mass of the Moon?V_M - Attractive Force Potentials for Moon?r_S/MX - Distance of Point?f - Universal Constant?

Mass of Moon given Attractive Force Potentials Example

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Here is how the Mass of Moon given Attractive Force Potentials equation looks like with Values.

Here is how the Mass of Moon given Attractive Force Potentials equation looks like with Units.

Here is how the Mass of Moon given Attractive Force Potentials equation looks like.

7.3E+22 = \frac{5.7E+17 \cdot 256}{2}

7.3E+22kg = \frac{5.7E+17 \cdot 256km}{2}

7.3E+22 = \frac{5.7E+17 \cdot 256}{2}

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Mass of Moon given Attractive Force Potentials Solution

Follow our step by step solution on how to calculate Mass of Moon given Attractive Force Potentials?

FIRST Step Consider the formula

M = \frac{V M \cdot r S/MX}{f}

Next Step Substitute values of Variables

∴

M = \frac{5.7E+17 \cdot 256km}{2}

Next Step Convert Units

∴

M = \frac{5.7E+17 \cdot 256000m}{2}

Next Step Prepare to Evaluate

∴

M = \frac{5.7E+17 \cdot 256000}{2}

Next Step Evaluate

∴

M = 7.296E+22kg

LAST Step Rounding Answer

∴

M = 7.3E+22kg

Mass of Moon given Attractive Force Potentials Formula Elements

Variables

Mass of the Moon

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].

Symbol: M

Measurement: WeightUnit: kg

Note: Value can be positive or negative.

Formulas to find Mass of the Moon

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.

Symbol: V_M

Measurement: NAUnit: Unitless

Note: Value can be positive or negative.

Formulas to find Attractive Force Potentials for Moon

Distance of Point

Distance of Point refers to the point located on the surface of the Earth to the center of the Sun or the Moon.

Symbol: r_S/MX

Measurement: LengthUnit: km

Note: Value can be positive or negative.

Formulas to find Distance of Point

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.

Symbol: f

Measurement: NAUnit: Unitless

Note: Value can be positive or negative.

Formulas to find Universal Constant

Other Formulas to find Mass of the Moon

Go Mass of Moon given Attractive Force Potentials with Harmonic Polynomial Expansion

M = \frac{V M \cdot {r m}^{3}}{{[Earth-R]}^{2} \cdot f \cdot P M}

Other formulas in Attractive Force Potentials category

Go Attractive Force Potentials per unit Mass for Moon

V M = \frac{f \cdot M}{r S/MX}

Go Attractive Force Potentials per unit Mass for Sun

V s = \frac{f \cdot M sun}{r S/MX}

Go Mass of Sun given Attractive Force Potentials

M sun = \frac{V s \cdot r S/MX}{f}

Go Moon's Tide-generating Attractive Force Potential

V M = f \cdot M \cdot ((\frac{1}{r S/MX}) - (\frac{1}{r m}) - ([Earth-R] \cdot \frac{\cos (θ m/s)}{{r m}^{2}}))

How to Evaluate Mass of Moon given Attractive Force Potentials?

Mass of Moon given Attractive Force Potentials evaluator uses Mass of the Moon = (Attractive Force Potentials for Moon*Distance of Point)/Universal Constant to evaluate the Mass of the Moon, Mass of Moon given Attractive Force Potentials formula is defined as the total quantity of matter contained in the Moon, which is a measure of its inertia and gravitational influence [7.34767309 × 10^22 kilograms]. Mass of the Moon is denoted by M symbol.

How to evaluate Mass of Moon given Attractive Force Potentials using this online evaluator? To use this online evaluator for Mass of Moon given Attractive Force Potentials, enter Attractive Force Potentials for Moon (V_M), Distance of Point (r_S/MX) & Universal Constant (f) and hit the calculate button.

FAQs on Mass of Moon given Attractive Force Potentials

What is the formula to find Mass of Moon given Attractive Force Potentials?

The formula of Mass of Moon given Attractive Force Potentials is expressed as Mass of the Moon = (Attractive Force Potentials for Moon*Distance of Point)/Universal Constant. Here is an example- 7.3E+22 = (5.7E+17*256000)/2.

How to calculate Mass of Moon given Attractive Force Potentials?

With Attractive Force Potentials for Moon (V_M), Distance of Point (r_S/MX) & Universal Constant (f) we can find Mass of Moon given Attractive Force Potentials using the formula - Mass of the Moon = (Attractive Force Potentials for Moon*Distance of Point)/Universal Constant.

What are the other ways to Calculate Mass of the Moon?

Here are the different ways to Calculate Mass of the Moon-

Mass of the Moon=(Attractive Force Potentials for Moon*Distance from center of Earth to center of Moon^3)/([Earth-R]^2*Universal Constant*Harmonic Polynomial Expansion Terms for Moon)

Can the Mass of Moon given Attractive Force Potentials be negative?

Yes, the Mass of Moon given Attractive Force Potentials, measured in Weight can be negative.

Which unit is used to measure Mass of Moon given Attractive Force Potentials?

Mass of Moon given Attractive Force Potentials is usually measured using the Kilogram[kg] for Weight. Gram[kg], Milligram[kg], Ton (Metric)[kg] are the few other units in which Mass of Moon given Attractive Force Potentials can be measured.

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Mass of Moon given Attractive Force Potentials Formula

​GoMass of Moon given Attractive Force Potentials with Harmonic Polynomial Expansion Formula

Mass of Moon given Attractive Force Potentials Example

Mass of Moon given Attractive Force Potentials Solution

Mass of Moon given Attractive Force Potentials Formula Elements

Other Formulas to find Mass of the Moon

Other formulas in Attractive Force Potentials category

How to Evaluate Mass of Moon given Attractive Force Potentials?

FAQs on Mass of Moon given Attractive Force Potentials

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GoMass of Moon given Attractive Force Potentials with Harmonic Polynomial Expansion Formula