How powerful is gai's kick

[Apexx]

You guys are voluntarily doing math? Lol.

 

[Jiraiyathesannin]

Ok I will show you how it is wrong.

KE= 1/2mv^2

In this case: 1/2 x 75kg x 30,000,000^2 (m/s) (taking your number) = 3.375 x 10^16 joules.

Watt is joules per second.

The sun has a wattage of 3.826 x 10^26 Watts. That means it is putting out 3.826 x +10^26 joules every second.

Lets say Gai's whole move takes exactly 1 second (big assumption but hey lets just go with it)

That means Gai's attack had a power outage of 8.8 x 10^-9 % of the power of the sun or 0.0000000088%

The cheeky f*cker even had the cheek to neg rep me when I said he was wrong.

You insult my methods than say something like "lets say it takes 1 second, huge assumption just go with it". You can't begin to point out flaws in my numbers if you can't even correctly follow scientific procedure. Given that my time value was .0000000023 and yours was 1, i'm hardly surprised your number is different.

You guys are voluntarily doing math? Lol.

Its more physics than math. the actual math part is just multiplication and division

 

[Jiraiyathesannin]

Ok I will show you how it is wrong.

KE= 1/2mv^2

In this case: 1/2 x 75kg x 30,000,000^2 (m/s) (taking your number) = 3.375 x 10^16 joules.

Watt is joules per second.

The sun has a wattage of 3.826 x 10^26 Watts. That means it is putting out 3.826 x +10^26 joules every second.

Lets say Gai's whole move takes exactly 1 second (big assumption but hey lets just go with it)

That means Gai's attack had a power outage of 8.8 x 10^-9 % of the power of the sun or 0.0000000088%

The cheeky f*cker even had the cheek to neg rep me when I said he was wrong.

Doing your problem a different way and getting a different result doesn't prove me wrong. Look in MY EQUATIONS. and find the problem

 

[EmbraceNixFifty]

Very powerful.

 

[Mille Ignis]

You insult my methods than say something like "lets say it takes 1 second, huge assumption just go with it". You can't begin to point out flaws in my numbers if you can't even correctly follow scientific procedure. Given that my time value was .0000000023 and yours was 1, i'm hardly surprised your number is different.


Its more physics than math. the actual math part is just multiplication and division

You're taking his criticism for an insult. Furthermore, physics is math...

Let's say C is a constant number and let t=time

[(Cwatt,Gai's kick) (t) / (Cwatt,Sun) (t)]100% = (Cwatt,Gai's kick/Cwatt,Sun)(100%)

As you can see the "t" (time) crossed out just leaving the ration between Gai's kick and the Sun. Therefore you can conclude that the calculation is not time dependent. In simpler terms, the time does not matter so the number should not be different.

If you want people to take your calculations seriously, I suggest that you read up on scientific notation and sig figs. I gave you a plus rep for trying, but I am beginning to regret my decision.

 

[KingHashirama]

2 or 3 mountain buster level.

 

[Uchicha Macho]

probably equal to perfect susano swipe

 

[Jiraiyathesannin]

You're taking his criticism for an insult. Furthermore, physics is math...

Let's say C is a constant number and let t=time

[(Cwatt,Gai's kick) (t) / (Cwatt,Sun) (t)]100% = (Cwatt,Gai's kick/Cwatt,Sun)(100%)

As you can see the "t" (time) crossed out just leaving the ration between Gai's kick and the Sun. Therefore you can conclude that the calculation is not time dependent. In simpler terms, the time does not matter so the number should not be different.

If you want people to take your calculations seriously, I suggest that you read up on scientific notation and sig figs. I gave you a plus rep for trying, but I am beginning to regret my decision.

I didn't use significant figures because when i was doing this on my phone, i didn't have a calculating device that could take sig fig inputs. Only the raw numbers. And since i had to do the calculations like that, i left it that way. Also the point of the thread was to show how high it was. So showing the full number augmented that (also like i said, i was on my phone, so i couldn't do superscript and exponents). Why do you think i typed out squared instead of writing the raised 2? Also it is VERY time dependent. This whole argument hinges on him being at a certain velocity (relativistic velocity). Velocity is distance/time. Ergo i needed time.

 

[Mille Ignis]

I didn't use significant figures because when i was doing this on my phone, i didn't have a calculating device that could take sig fig inputs. Only the raw numbers. And since i had to do the calculations like that, i left it that way. Also the point of the thread was to show how high it was. So showing the full number augmented that (also like i said, i was on my phone, so i couldn't do superscript and exponents). Why do you think i typed out squared instead of writing the raised 2? Also it is VERY time dependent. This whole argument hinges on him being at a certain velocity (relativistic velocity). Velocity is distance/time. Ergo i needed time.

@Bold: I was showing that the ratio between the Watts produced by Gai's kick vs the Watts produced by the Sun is not time dependent as I thought you were referring to in your response. I understand that to achieve those numbers time is needed, but the ratio between the numbers themselves is not.

You don't need to use superscript to show exponents; a simple ^ (carrot) will do. Moreover, your phone should have nothing to do with the fact that you could't use sig-figs. Rounding to three decimal places should't hinder your ability to do calculations on your phone. It may give you a rounding error in your calculations, but for the most part, it wouldn't affect your answers enough to cause concern.

One last note to defend my first response.

Like the other guy said, KE=0.5MV^2

If we assume that the velocity and mass that you presented is correct, then we can easily calculate the kinetic energy by Gai's kick. Furhtermore, if we also assume that all the energy is transferred to Madara (since Gai's final velocity is 0) then there is no need to calculate the impulse. Also, impulse is usually only calculated when an object traveling hits a wall, deforms, and bounces back off. The impulse is the time that the object is in contact with the wall. So, since the impulse is not needed, time is no longer needed as well. This leaves the only the velocity vector which requires time and distance. However, because the velocity is given, we can conclude that time is not needed in our calculation making the calculation of KE not time dependent. Yes, KE is a time dependent scalar quantity, but since we are given the velocity, it does not matter how long it took Gai to hit Madara nor how long it took him to get there. Thus, the calculation itself is not time dependent unless time is acting as a variable which in this case it is not because the velocity is given. You also cannot convert Gai's kick into Watts because the energy given off my Gai is instantaneous. Watts measure the flow of energy with respect to time and since the energy given off buy Gai's kick is instantaneous we cannot measure the wattage.

To sum it up.

Yes KE is a time dependent scalar quantity, but since velocity was given the calculation itself is not time dependent.

Well that's just my two cents on the matter.

 

[Jiraiyathesannin]

@Bold: I was showing that the ratio between the Watts produced by Gai's kick vs the Watts produced by the Sun is not time dependent as I thought you were referring to in your response. I understand that to achieve those numbers time is needed, but the ratio between the numbers themselves is not.

You don't need to use superscript to show exponents; a simple ^ (carrot) will do. Moreover, your phone should have nothing to do with the fact that you could't use sig-figs. Rounding to three decimal places should't hinder your ability to do calculations on your phone. It may give you a rounding error in your calculations, but for the most part, it wouldn't affect your answers enough to cause concern.

One last note to defend my first response.

Like the other guy said, KE=0.5MV^2

If we assume that the velocity and mass that you presented is correct, then we can easily calculate the kinetic energy by Gai's kick. Furhtermore, if we also assume that all the energy is transferred to Madara (since Gai's final velocity is 0) then there is no need to calculate the impulse. Also, impulse is usually only calculated when an object traveling hits a wall, deforms, and bounces back off. The impulse is the time that the object is in contact with the wall. So, since the impulse is not needed, time is no longer needed as well. This leaves the only the velocity vector which requires time and distance. However, because the velocity is given, we can conclude that time is not needed in our calculation making the calculation of KE not time dependent. Yes, KE is a time dependent scalar quantity, but since we are given the velocity, it does not matter how long it took Gai to hit Madara nor how long it took him to get there. Thus, the calculation itself is not time dependent unless time is acting as a variable which in this case it is not because the velocity is given. You also cannot convert Gai's kick into Watts because the energy given off my Gai is instantaneous. Watts measure the flow of energy with respect to time and since the energy given off buy Gai's kick is instantaneous we cannot measure the wattage.

To sum it up.

Yes KE is a time dependent scalar quantity, but since velocity was given the calculation itself is not time dependent.

Well that's just my two cents on the matter.

I mean i don't think you can use simple conservation of energy because its an inellastic collision (his chest caves in). thats why i didn't go that route