FTL Speed scale

vsbattles.fandom.com/wiki/Calc…

Luminal: 1 to 1,000 c(FTLx)

www.space.com/14729-spacekids-…

Example: Speed needed to cross the Earth to Moon in 1.3  second (299,792,458 m/s) to Mars and Earth in 1.3 Seconds (299,792,458,000 m/s  or 2 AUs per second)

Minimum Energy needed to achieve Luminal speed with 70kg human in short bursts/Striking strength/Durability(Close range  E=MC^2/2):3.145643125578862e+18 Joules or 751.826 750 86 megatons of TNT

Miniumotential Acclreariton Stiking force/Durablity pf 70kg human(F=MV^2D):9.430400846080896e+26 Joules  or 225.391 Petatons of TNT(Mutil Contintent level+)

science.howstuffworks.com/scie…

When a car goes around a turn, it accelerates the whole time (this is why, when you make a turn in your own car, you feel a force pulling your body toward the outside of the car). The amount of acceleration is equal to the velocity of the car squared divided by the radius of the turn:

Let’s run the numbers:

230 mph is 337 feet per second (f/s).

(337 f/s)2 / 750 feet = approximately 151 f/s2.

The acceleration due to gravity (1 G) is 32 f/s2.

151 / 32 = 4.74 Gs experienced by the drivers.

9.81 m/s=Earth’s Surface Gravity

G=V^2/ R

G=299,792,458,000 m/s^2/149,896,229,000m

G=8.987551787368176e+22/149,896,229,000 m

G=898,755,178,736.82 G’s 

Gravity of a human moving at Lightspeed:898,755,178,736.82 G’s  

Or roughly 1.28 times the gravity of a Neutron Star.

Minimum mass increase of 70kg human moving at Lightspeed:3.20766e+17 kg kilogram-force meter 

or the eqauilvent of lifting 3 Promeheitimus Satellites

Minimum mass increase of 70kg human moving at Lightspeed accelerating:9.6163326376e+25 kilogram-force meter  or 16.3 Earth masses or roughly 1.1 times the mass of Uranus on Earth’s gravity to your back

Minnium Energy consumed per Second  moving at short bursts:

One Food Calorie:4,285.714285714286 Joules

Minimum  Energy consumed per the second moingat Light Speed:3.145643125578862e+18 Joules or  733,983,395,968,401 Food Calories.

Which is over 366,825,050,317.259 times the recommended daily amount of calories.

Meaning you would need to  eat as much food as the entire  world’s population eats on average  in 48 Days, 21 hours, 50 minutes and      within a second of traveling at Lightspeed, basically instant starvation assuming you don’t vaporize instantaneously

Meaning characters who can move at Lightspeed would have to have massive reserves of energy simply to avoid dying in the first jog.

Requirements for acceptable Lightspeed feat

-At least Mountain level for short burst Lightspeed movement and Multi Continent level for Acceleration to Lightspeed

-The beam refracts in a new material, such as a liquid or…

-The beam reflects off a material that it can be expected to, such as a non-magical mirror

-The beam is called lightspeed by reliable sources

-It is stated to be made of photons or light itself, again by a reliable source

-It has its origin at a realistic source of light, such as a camera

Examples of soild Lightspeed feats.

Sailor Moon dodging Camera Flash

Sailor Moon Literally dodging Light

Kizaru’s Devil Fruit attack speed.

Raditz dodging Special Beam Cannon(Literally stated to be Lightspeed in manga and anime)

Ultear’s Last Ages(To Time Travel, you must at least move at Lightspeed, especially reverting the world’s time)

The Flash running to the Sun in less than 8 minutes.

Madara’s Lightfang

Kilo Luminal: 1,000c to 1,000,000 c(Massively FTL)

Example: Speed needed to cross between Mars and Earth(299,792,458,000 m/s  or 2 AUs per second) to crossing the Solar System in 1.01 Seconds ( 1,900 AU’s per Second)

Mega Luminal: 1,000,000c to  1,000,000,000c( Massively FTL/Sub-Relativistic Year/Par Sec speed)

Example: Speed needed to cross the Solar System in 1.01 seconds ( 1945.54 AU’s per Second)  to 30.2 Lightyears per second.

Sub-Relativistic Year:  1% to 10% Lightyears/sec (634.211  AU’s/sec to 6342.11 AU’s/sec)

Relativistic Year:10% to  3.2 Light years/sec ( 6342.11 AU’s/sec to 202947.52  AU’s/sec or 3.2 Lightyears sec)

Parsec speed: 3.2 Light Years /sec

Giga Luminal:1 Billion c to   1 Trillion c(ParSec Speed to KiloParSec  Speed)

Example: Speed needed to cross  Alpha Centurai in 0.1433 seconds(4.36 Lightyears) to  crossing the Milky Galaxy in 3.3 Seconds (100,000 Lightyears)

Tera Luminal:   1 Trillion c to 1 Quadrillion C(KiloParSec Speed to  MegaParsec Speed)

Example: Speed needed to cross the Milky Way Galaxy in 3.3 Seconds (100,000 Lightyears) to crossing to the Virgo Supercluster in 3.6 Seconds.

Peta Luminal:1 Quadrillion C  to 1 Quintillion c (MegaParsec Speed to  GigaParsec Speed )

Example: Speed needed to cross the Virgo Supercluster in 3.6 Seconds to the Observable Universe within 3.1 seconds.

Exa Luminal:1  Qunilltion C to  1 Sextillion c ( GigaParsec Speed to TeraParsec speed)

Example: Speed needed to cross the 3.6 Seconds to the Observable Universe within 3.1 seconds to  the edge of the Universe at 0.76 seconds

Zetta Luminal; 1 Sextillion  c to 1 Septillion c(TeraParsec speed  to PetaParsec speed)

Example: Speed needed to cross the edge of the Universe at  0.76 seconds to traveling Multiple Universes in seconds. 30.3 Trillion Lightyears/sec to 30.3 Quadrillion Lightyears per second.

Yotta Luminal:1 Seplltion  c to 1 Octillion C (

30.3 Trillion Lightyears/sec to 30.3 Quadrillion Lightyears per second.

Nina Luminal: 1 Octillion c to  1 Nonillion c

30.3 Quadrillion Lightyears per second to  30.3 Quintillion Lightyears per second 

Tena Luminal:1 Nonillion c  to 1 Decillion c

30.3 Quintillion  Lightyears per second  to 30.3 Sextillion Lightyears per second 

Tena Kilo Luminal: 1 Decillion c to   1 Undecillion c

30.3 Sextillion  Lightyears per second  to 30.3 Septillion Lightyears per second.

Trans Planck Speeds: 1 Undecillon  c to 1 Duodecllion c

30.3 Septillion  Lightyears per second  to 30.3 Octillion Lightyears per second.

Sub Planck Speeds: 1 Doudecillion  c to 1 Tredecllion C

30.3 Ocitllion  Lightyears per second  to 30.3 Nonillion Lightyears per second.

Planck Speed:1 Tredecllion C  to 1 Quattuordecillion

30.3 Ocitllion  Lightyears per second  to 30.3 Nonillion Lightyears per second.

30.3 Nonllion  Lightyears per second  to 30.3 Decilion Lightyears per second.

Or 1/539th a meter in a planck second to  1.85 meters within a planck second

Kiloplanck Speeds:1  Quattuordecillion c to   1 Quindecillionc

30.3 Delcion   Lightyears per second  to 30.3 UndeicllionLightyears per second

Or 1.85 meters within a planck second to  1,850 meters within a plack second

Megaplanck Speeds: 1 Quindecillionc  to 1 Sexdecillion c

30.3 Undeicllion    Lightyears per second  to 30.3 Doudeicllion Lightyears per second

Or 1.85km within a planck second to  1,850km within a planck second

Gigaplanck Speeds: 1 Sexdecillion   to 1 Septendecillion c

30.3 DuoDelcion   Lightyears per second  to 30.3 TreseicllionLightyears per second

Or 1,850 km within a planck second to  1,850,00km within a planck second

Teraplanck Speeds: 1 Septendecillion  c to 1 Octodecillion 

30.3 Treseicllion   Lightyears per second  to 30.3 Quattuordecillion  Lightyears per second

Or 1,850,000 km within a planck second to   12.36 AU’s within a planck second

Petaplack Speeds:1 Octodecillion   to 1 Novemdecillion 

30.3 Quattuordecillion    Light Years per second to   30.3 Quindecillion Light Years per second

Or 12.36 AU’s within a planck second to   12,360 AU’s within a planck second

Exaplanck Speed:1  Novemdecillion c to  1 Vigintillion

30.3  Quindecillion   Light Years per second  to 30.3 Sexdecillion Light Years per second

12,360 AU’s  within a planck second  to 195.44 Light Years in a planck second

Zettaplanck Speed: 1 Vigintillion c +  or 10^63 to 10^66

30.3  Quindecillion   Light Years per second  to 30.3 Sexdecillion Light Years per second.

195.44 Light Years in a planck second   to “195,440 Light Years Per Planck Second

Yottaplanck Speed:10^66 to 10^69

30.3 Sexdecillion   Light Years per second  to 30.3 Septendecillion Light Years per second.

195,440 Light Years in a planck second   to “195,440,000 Light Years Per Planck Second

Ninaplack Speed:10^69  to 10^72

30.3 Septendecillion Light Years per second  to 30.3 Octodecillion Light Years per second

195,440,000 Light Years in a planck second   to “195,440,000,000 Light Years Per Planck Second  or 2.1 Universal Units(UU/Distance of the observable Universe)

TenaPlanck Second:10^72  to 10^75

30.3 Octodecillion Light Years per second   to 30.3 Novemdecillion Light Years per second 

2.1 UU in a planck second to  2.100 UU in a planck second

TenKiloPlanck Second:10^75 to 10^78

  30.3 Novemdecillion  Light Years per second   to 30.3 Vigintillion 

  2.100 UU in a planck second  to 2,100,00 UU in a planck second

TenaMegaPlanck Second”10^78 to 10^81

  2.100,000 UU in a planck second  to 2.1 Billion UU in a planck second

Incomprehensible Speed/Irrelevant speed:  Speed beyond 1.1499×10^105 c