The Sun[]
Diameter: 1,392,684 km
Radius: 696,342 km
Volume: 1.41434833E+33 cm³
Mass: 1.99E+30 kg
GBE: 6.87E+41 J (164.19 Quettatons) / 2.27e41 J
Destruction Values[]
Subatomic (5.403E13j/cc): 7.642e46 J
Mercury[]
Diameter: 4879.4 km
Radius: 2439.7 km
Volume: 6.08272087E+25 cm³
Mass: 3.3011E+23 kg
GBE: 1.794E+30 J (436.86 Exatons)
Destruction Values[]
Atomic (30852.2j/cc) = 1.8767E+30 J
Subatomic (5.403E13j/cc) = 3.286E+39 J
Venus[]
Diameter: 12103.6 km
Radius: 6051.8 km
Volume: 9.2843E+26 cm³
Mass: 4.8675E+24 kg
GBE: 1.570E+32 J (37.52 Zettatons)
Destruction Values[]
Subatomic (5.403E13j/cc): 5.016E+40 J
Earth[]
Diameter: 12756.274 km
Radius: 6378.137 km
Volume: 1.08685133E+27 cm³
Mass: 5.9723E+26 kg
GBE: 2.243E+32 J (53.60 Zettatons)
Destruction Values[]
Subatomic (5.403E13j/cc) = 5.872E+40 J
Mars[]
Diameter: 6792.4 km
Radius: 3396.2 km
Volume: 1.64084811E+26 cm³
Mass: 6.4171E+23 kg
GBE: 4.865E+30 J
Destruction Values[]
Atomic (30852.2j/cc) = 5.0624E+30 J
Subatomic (5.403E13j/cc) = 8.866E+39 J
Jupiter[]
Diameter: 142984 km
Radius: 71,492 km
Volume: 1.53059732E+30 cm³
Mass: 1.89819E+27 kg
GBE: 2.022E+36 J
Destruction Values[]
Subatomic (5.403E13j/cc) = 8.27E+43 J
Saturn[]
Diameter: 120536 km
Radius: 60268 km
Volume: 8.271299999999999E+29 cm³
Mass: 5.6834E+26 kg
GBE: 2.147E+35 J
Destruction Values[]
Subatomic (5.403E13j/cc) = 4.469E+43 J
Uranus[]
Diameter: 51118 km
Radius: 25559 km
Volume: 6.833E+28 cm³
Mass: 8.6813E+25 kg
GBE: 1.182E+34 J
Destruction Values[]
Subatomic (5.403E13j/cc) = 3.692E+42 J
Neptune[]
Diameter: 49528 km
Radius: 24764 km
Volume: 6.254E+28 cm³
Mass: 1.02413E+26 kg
GBE: 1.707E+34 J
Destruction Values[]
Atomic (30852.2j/cc) = 5.0624E+30 J
Subatomic (5.403E13j/cc) = 3.379E+42 J
Moon[]
Diameter: 3476.2 km
Radius: 1738.1 km
Volume: 2.1968E+25 cm³
Mass: 7.346E+22 kg
GBE: 1.236E+29 J
Destruction Values[]
Vaporization (25700j/cc) = 5.646E+29 J
Atomic (30852.2j/cc) = 6.778E+29 J
Subatomic (5.403E13j/cc): 1.187E+39 J
Formulas Used + Notes[]
GBE: U = 3GM²/5r , where M = Mass, G = Gravitational Constant, r = radius
Note, this formula won't be 100% accurate in some cases (such as the Sun, which has a different result from the formula), and it uses uniform density.
Unless we are applying high-end values, such as subatomic destruction, it is useless to include most destruction values, as they don't overcome the GBE. In other words, if it's not included, it doesn't overcome the GBE. Though, you can add the method of destruction to the GBE, but the difference would be extremely little due to the reasons above.
Note 2- While yes, some destructive values aren't capable of overcoming the GBE, if the celestial body is depicted to be completely destroyed beyond the GBE, simply add the GBE + the destructive value energy.