Tier
|
Level
|
Energy in
Conventional Terms
|
Energy in Tonnes
of TNT Equivalent
|
Energy in Joules
|
High End to Low End ratio
|
Explanations
|
11-C
|
Absolute Zero
|
None
|
None
|
None
|
None
|
At this state one has zero energy, normally for massless particles at rest.
|
11-B
|
Subatomic
|
Comparable to subatomic particles
|
Comparable to a subatomic particles
|
Comparable to a subatomic particles
|
N/A
|
Energy levels so low where they reach a Planck scale or below.
|
11-A
|
Atomic
|
Energy of an atom.
|
Energy of an atom.
|
Energy of an atom.
|
N/A
|
Energy levels comparable to a single particle.
|
Low 10-C
|
Low Subhuman
|
~Lower quantifiable finite value of Joules to
0.003 Joules
|
~Lower quantifiable finite value to 7.17×10-13
|
~Lower quantifiable finite value to 3×10-3
|
N/A
|
Normally reserved to digital or data beings.
|
10-C
|
Subhuman
|
0.003 Joules to 1.4 Joules
|
~7.17×10-13 to 3.34×10-10
|
~3×10-3 to 1.4x100
|
N/A
|
Normally reserved to bugs or insects.
|
High 10-C
|
High Subhuman
|
~1.4 Joules to 25 Joules
|
~3.34×10-10 to 5.97×10-9
|
~1.4x100 to 2.5×101
|
N/A
|
Normally reserved to small animals or infants.
|
Low 10-B
|
Below Average Human
|
25 joules to 50 joules
|
5.97×10-9 to 1.195×10−8
|
2.5x101 to 5x101
|
2.6x
|
The physically impaired, children of society, or obese people of society.
|
10-B
|
Average Human
|
50 Joules to
130 Joules
|
1.195×10−8 to 3.1071×10−8
|
5x101 to 1.3x102
|
2.6x
|
The regular human of society.
|
High 10-B
|
Above Average Human
|
130 Joules to
300 Joules
|
3.1071×10−8 to 7.17x10−8
|
1.3x102 to 3x102
|
~2.307x
|
An athletic human.
|
10-A
|
Peak Human
|
300 Joules to
7 Kilojoules
|
7.17x10−8 to 1.67×10-6
|
3x102 to 7x103
|
~23.33x
|
High level athletes, they normally participate in sports like Basketball, Tennis, Boxing, MMA, etcetera.
|
9-C
|
Bone
|
7 Kilojoules to
14 Kilojoules
|
1.67×10-6 to 3.34608×10−6
|
7x103 to 1.4x104
|
2x
|
Mainly for also be melee weapons, conventional firearms or smaller predator animals.
|
9-B
|
Wall
|
14 Kilojoules
to 0.018 Tons
|
3.59x10−6 to 1.8×10−2
|
1.4x104 to 7.6×107
|
~5441.067
|
The beginning of superhuman, destroying walls in various manners.
|
9-A
|
Room
|
0.018 Tons
to 0.25 Tons
|
1.8×10−2 to 2.5x10−1
|
7.6×107 to 1.046x109
|
~13.89x
|
The energy to destroy a room.
|
Low 8-C
|
Small Building
|
0.25 Tons
to 5 Tons
|
2.5x10−1 to 5
|
1.046x109 to 2.092x1010
|
20x
|
The energy to destroy a small building. This is normally considered a residential home.
|
8-C
|
Building
|
5 Tons
to 7.5 Tons
|
5 to 7.5
|
to 2.092x1010 to 3.138×1010
|
1.5x
|
The energy to destroy a building. Normally considered for commercial buildings.
|
High 8-C
|
Large Building
|
7.5 Tons to
10 Tons
|
7.5 to 1x101
|
3.138×1010 to 4.184×1010
|
~1.33x
|
The energy to destroy a large building.
|
8-B
|
City Block
|
10 Tons to 100 Tons
|
1x101 to 102
|
4.184×1010 to 4.184x1011
|
10x
|
The energy to destroy a city block.
|
8-A
|
City District
|
100 Tons to 10 Kilotons
|
102 to 1x104
|
4.184x1011 to 4.184×1013
|
100x
|
The energy to destroy a city district.
|
7-C
|
Town
|
10 Kilotons to
1 Megaton
|
1x104to 106
|
4.184×1013 to 4.184x1015
|
100x
|
The energy to destroy a town.
|
7-B
|
City
|
1 Megaton to 50 Megatons
|
106 to 5x107
|
4.184x1015 to 2.092x1017</sup
|
50x
|
The energy to destroy a city.
|
7-A
|
Metropolis
|
50 Megatons
to 1 Gigaton
|
5x107 to 1x109
|
2.092x1017 to 4.184x1018
|
20x
|
The energy to destroy a metropolis.
|
6-C
|
Island
|
1 Gigatons
to 1 Teraton
|
1x109 to 1x1012
|
4.184x1018 to 4.184x1021
|
1000x
|
The energy to destroy an island.
|
6-B
|
Country
|
1 Teraton to 1 Petaton
|
1x1012 to 1x1015
|
4.184x1021 to 4.184x1024
|
1000x
|
The energy to destroy a country.
|
6-A
|
Continent
|
1 Petaton
to 40 Petatons
|
1x1015 to 4x1016
|
4.184x1024 to 1.674x1026
|
~40x
|
The energy to destroy a continent.
|
High 6-A
|
Multi-Continent
|
40 Petatons to
28.6 Exatons
|
4x1016 to 2.87x1019
|
1.674x1026 to 1.2x1029
|
~716.85x
|
The energy to destroy multiple continents. Normally things like surface wiping or atmosphere destruction.
|
5-C
|
Moon
|
29.6 Exatons to
430 Exatons
|
2.87x1019 to 4.3x1020
|
1.2x1029 to 1.8x1030
|
~14.53x
|
The energy to destroy the moon. The normal assumption is our Earth's moon.
|
Low 5-B
|
Small Planet
|
433 Exatons
to 48 Zettatons
|
4.3x1020 to 4.8x1022
|
1.8x1030 to 2x1032
|
~111.11x
|
The energy to destroy a small planet. The normal assumption is the planet Mercury.
|
5-B
|
Planet
|
48 Zettatons
to 4.075 Yottatons
|
4.8x1022 to 4.075x1024
|
2x1032 to 1.705x1034
|
~85.25x
|
The energy to destroy a planet. The normal assumption is our Earth.
|
High 5-B
|
Large Planet
|
4.075 Yottatons
to 182.31 Ninatons
|
4.075x1024 to 1.823x1029
|
1.705x1034 to 7.628x1038
|
~44,737x
|
The energy to destroy a large planet. The normal assumption is Neptune.
|
5-A
|
Brown Dwarf
|
182.31 Ninatons
to 3.910 Tenatons
|
1.823x1029 to 3.91x1030
|
7.628x1038 to 1.636x1040
|
~21.45x
|
The energy to destroy a Brown Dwarf. The normal assumption is OTS 44.
|
Low 4-C
|
Low Mass Star
|
3.910 Tenatons
to 55 Tenatons
|
3.91x1030 to 5.49x1031
|
1.636x1040 to 2.3x1041
|
~7.33x
|
The energy to destroy a star that has low mass.
|
4-C
|
Star
|
55 Tenatons
to 912.295 Tenatons
|
5.49x1031 to 9.12x1032
|
2.3x1041 to 3.817x1042
|
~16.59x
|
The energy to destroy an average star. The normal assumption is our sun.
|
High 4-C
|
High Mass Star
|
912.295 Tenatons
to 1 Foe
|
9.12x1032 to 2.39x1034
|
3.817x1042 to 1x1044
|
~26.20x
|
The energy to destroy a star that has large mass. The normal assumption is the star Rige.
|
4-B
|
Solar System
|
1 Foe
to 121.98 GigaFoe
|
2.39x1034 to 1x1044
|
1x1044 to 1.22x1055
|
~12,1982,507,288.629738x
|
The energy to destroy a solar system. An example being a supernova. The normal assumption is our solar system.
|
High 4-B
|
Multi-Solar System
|
121.98 GigaFoe
to 1.61 YottaFoe
|
2.92x1045 to 1.041x1048
|
1.22x1055 to 4.357x1057
|
~357.1554x
|
The energy to destroy multiple solar systems.
|
4-A
|
Star Cluster
|
121.98 GigaFoe
to 1.61 YottaFoe
|
1.041x1048 to 4.693x1050
|
4.357x1057 to 1.964x1060
|
~450.7539x
|
The energy to destroy a star cluster.
|
High 4-A
|
Multi-Star Cluster
|
121.98 GigaFoe
to 1.61 YottaFoe
|
4.693x1050 to 1.22x1055
|
1.964x1060 to 1.614x1068
|
~82,185,891.768x
|
The energy to destroy multiple star clusters.
|
3-C
|
Galaxy
|
1.61 YottaFoe
to 1.61 NinaFoe
|
3.857x1058 to 3.857x1061
|
1.614x1068 to 1.614x1071
|
1000x
|
The energy to destroy a galaxy. The normal assumption is our Milky Way Galaxy.
|
High 3-C
|
Multi-Galaxy
|
1.61 NinaFoe
to 5.48 TenaFoe
|
3.857x1061 to 1.301x1065
|
1.614x1071 to 5.447x1074
|
~3374.8x
|
The energy to destroy multiple galaxies.
|
3-B
|
Galaxy Cluster
|
5.48 TenaFoe
to 2.15 TenakiloFoe
|
1.301x1065 to 5.134x1067
|
5.447x1074 to 2.148x1077
|
~394.3x
|
The energy to destroy a galaxy cluster.
|
3-A
|
Supercluster
|
2.15 TenakiloFoe
to 2.79 TenamegaFoe
|
5.134x1067 to 6.666x1070
|
2.148x1077 to 2.789x1080
|
~1298.4x
|
The energy to destroy a supercluster. The normal assumption is the Virgo Supercluster.
|
High 3-A
|
Multi-Supercluster
|
2.79 TenamegaFoe
to any higher finite amount
|
6.666x1070 to any higher finite number
|
2.789x1080 to any higher finite number
|
N/A
|
The energy to destroy multiple superclusters.
|
2-C
|
Universal
|
Unquantifiable
|
Unquantifiable
|
Unquantifiable
|
Unquantifiable
|
Impossible to quantify with our current understanding of physics.
|
2-B
|
Multi-Universal
|
Unquantifiable
|
Unquantifiable
|
Unquantifiable
|
Unquantifiable
|
Impossible to quantify with our current understanding of physics.
|
2-A
|
Multiversal
|
Unquantifiable
|
Unquantifiable
|
Unquantifiable
|
Unquantifiable
|
Impossible to quantify with our current understanding of physics.
|
High 2-A
|
High Multiversal
|
Unquantifiable
|
Unquantifiable
|
Unquantifiable
|
Unquantifiable
|
Impossible to quantify with our current understanding of physics.
|
1-C
|
Complex Multiversal
|
Unquantifiable
|
Unquantifiable
|
Unquantifiable
|
Unquantifiable
|
Impossible to quantify with our current understanding of physics.
|
1-B
|
Hypercomplex Multiversal
|
Unquantifiable
|
Unquantifiable
|
Unquantifiable
|
Unquantifiable
|
Impossible to quantify with our current understanding of physics.
|
1-A
|
Mathematical Multiversal
|
Unquantifiable
|
Unquantifiable
|
Unquantifiable
|
Unquantifiable
|
Impossible to quantify with our current understanding of physics.
|
High 1-A
|
Absolute Transcendence
|
Unquantifiable
|
Unquantifiable
|
Unquantifiable
|
Unquantifiable
|
Impossible to quantify with our current understanding of physics.
|