In order to determine the exact mass of the moon and the sun, one must first determine the exact mass of the Earth.
This solves the equation is
Keep, mass of the earth E and a piece of material m
Gets from the law of gravitational acceleration
E+m = g.R²/G Here, m is ignored, Got the actual value of g = 984.873 cm/s² which is shown in POST3.
Now the radius of the earth is R = 6.3710088 × 10⁸ cm And from the new law of gravitation we get the value of Gravitational Constant G = 6.643385875 ÷ 10⁸ cm³/g.s². Calculated from this equation, the exact mass of the earth is E = 6.017376182 × 10²⁷ grams.
So, the exact mass of the Earth is 6.017376182 × 10²⁷ grams.
The equation related to mass is
E + M = C × R³/T²
Here, mass of the earth E and mass of the moon M, Universal combined Constants C, E is stationary object and M is orbiting object. M moves round the E . Rotation period of moving object is T, The distance of The Moon from our Earth R.
R = 3,84,400 km
= 3.844 × 10¹⁰ cm.
T = 27.32166 days
= 2360591.5 seconds.
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THE EXACT MASS OF THE MOON |
E + M = 6.057294887 × 10²⁷ grams.
So, the exact mass of the Moon is 3.9918705 × 10²⁵ grams.
In the case of the Sun, the equation would be exactly the same.
E + S = C.R³/T² Here,
R = 14,95,97,870 Km.
T = 365.2564 days
= 31558149.5 seconds. This solves the equation is
E + S = 1.99766 8537 × 10³³
grams.
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| THE EXACT MASS OF THE SUN ( 2020 ). |
So the exact mass of the Sun is 1.997662519 × 10³³ grams.
The ratio of the mass of the Sun to the Earth will be
S/E = 3,31,982.322 ~ 3,32,000
The ratio of the mass of the Earth to the Moon will be
E/M = 150.74077 ~ 151 Therefore,
S/E × E/M = 150.7407663 × 331982.322 Or,
S/M = 5,00,43,269.62 ~ 50043270
Or, S/M ~ 5.0 × 10⁷
The ratio of the mass of the Sun to the moon will be > 5 × 10⁷
So, we can generally say that the mass of the Sun is = 2.0 × 10³³ grams, the mass of the Earth is 6.0 × 10²⁷ grams and the mass of the Moon is 4.0 × 10²⁵ grams.
These values are determined by the new gravitational formula.
That is the formula
F = G.( M + m ).m/R² The value of G is taken from this formula.
With this mass formula it is possible to determine the exact mass of a small planet like mercury if we can give its exact distance from the Sun and the exact value of its orbital period.
Keep,mass of the Sun 》 S
mass of the Mercury 》M
Mercury moves round the sun . It's period of revolution is 》T
It's distance from the Sun is 》R, Therefore
S + M = C.R³/T²
S+M = 1.997662699 × 10³³ grams. Other hand , Mass of the sun 》S = 1.997662519 grams.
So M = 1.8 × 10²⁶ grams.
Here, T = 87.971 days
=(87.971 × 86400) seconds
R = 57909900 km
= ( 5.79099 ×10¹²) cm.
C = ( 5.942514607 × 10⁸ ). g.s²/cm³
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