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I am willing to assist with adding any commonly recognized feats to the page, if any assistance is needed.
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Expanding the References for Common Feats page
- Thread starter Omnificence
- Start date
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Thank you for helping out. It seems like a good type of feat to add to our standard feats page, but KLOL506 seemed to have some concerns that you will likely have to modify your calculation blog to accommodate.
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I was on my own for this one, so here's what it takes to crush an entire person: https://vsbattles.fandom.com/wiki/User_blog:Flashlight237/Common_Feat:_Crushing_a_Human
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Thank you for helping out.
@KLOL506 @Jasonsith @Spinosaurus75DinosaurFan @Mr._Bambu @Therefir
Are any of you willing to help out with evaluating this please?
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- Thread starter
- #845
I still need input on how to correct this one calculation I made.
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I looked at the blog and the comments and yeah, it's hard to verify anything here due to it being stopped by a great unknown (nobody studied actually running up a wall).
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- Thread starter
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Also have another one dealing with Mach cones.
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It seems like this has been accepted and can be added to our standard feats page now.
@Therefir
We are waiting for you to evaluate this calculation blog again.
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Turn all of the separate feats/sections in the following page collapsible, if I haven't misunderstood.
References for Common Feats
Throughout fiction and real life, there have been numerous feats demonstrating a certain character's or object's destructive power. This page's purpose is to consolidate calculations for those feats for better convenience in determining an object's or character's Attack Potency or Durability...vsbattles.fandom.com
@Dereck03 @Just_a_Random_Butler
Did either of you ever find the time to handle this?
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Thank you for reminding me.
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Hold it... Is the author of the blog essentially redefining the destruction values of different materials?
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Ummmmmm... no? He is still using the same methods to derive the destruction values.
It's just that drywall and brick have some pitifully low values.
Concrete however, we already have our own values in the Table of Destruction Values chart. That is what should be used.
Last edited:
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Because of this thread, I think I've found a flaw in the wording with one of our feats involving catching fire through sheer speed alone with this calc in question. Because if it's true what DT has pointed out earlier around this thread, then this shouldn't be required to necessarily have clothes just to leave a trail of flames through sheer speed alone.
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I lost notifications for this thread for a while, that was weird
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If you bookmark the following page, your subscribed threads shown in bold text are the ones that have new replies.
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Bump, about this
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So, here I am looking over the common feat of vaporizing iron and...
E=m*c*ΔT, where m=mass, c=specific heat capacity, ΔT=change in temperature. Iron's boiling point is not 6088 degrees celsius, it's 2862 degrees celsius!
It would actually go like this for a cubic centimeter of iron.:
7.874*0.44946*(2862-20)=10057.97453
Yes, I used five sig-figs; that's what the figures presented beforehand gave us.
At least you guys got latent heat right.
There's something fishy here and I can't put a finger on it. Well...
First of all, that's not how density works! Moles don't have anything to do with volume!
Second of all, that's not how the specific heat capacity equation works! It goes like this:
E=m*c*ΔT, where m=mass, c=specific heat capacity, ΔT=change in temperature. Iron's boiling point is not 6088 degrees celsius, it's 2862 degrees celsius!
It would actually go like this for a cubic centimeter of iron.:
7.874*0.44946*(2862-20)=10057.97453
Yes, I used five sig-figs; that's what the figures presented beforehand gave us.
At least you guys got latent heat right.
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- Thread starter
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So, what do you suggest I add to that calculation I made? Do you want me to keep the high-end?
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I'm currently waiting for what the other mods think
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- Thread starter
- #864
Hod that thought for now; I just found a video from The Theorizer on this, and the result was a bit higher than the one I got.
Did he do the math right here?
Did he do the math right here?
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Yeah that needs a recalc for sure
Would you like me to ping some people for this?
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Ah, don't worry about it. I'll get to fixing it when I get my Among Us calc finished up.
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Oh you're doing more than what's posted, Ik I evaluated one already
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Yeah. It's that Right Hand Man feat Psychomaster35 tried doing. I took that into my own hands.
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@Dalesean027 Do you need any help regarding applying the calculations (accepted) in the page?
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Yeah i'm not home i'm literally on my way to Canada right now so I can't do that atm
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Mind giving me instructions and the pages that I should add them? In which sections?
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Seems its already been handled actually everything now needs other CGM opinions
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Alright! I will still follow this thread, in case anyone wants to add anything and need my assistance! You can mention me in a post whenever you want, but most likely I will not check vsbw till next week.
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I kindly request that you inform me of the specific changes that you have made, if any. I am currently working on updating the formatting of the entire page.
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Here is a post where I explicitly mentioned every action I made in the page, including adding logs
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Thanks.
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@DontTalkDT @Executor_N0 @Antoniofer @AlexSoloVaAlFuturo @Ugarik
Would any of you be willing to evaluate if we need to revise our explanation pages based on the following post?
Also, Antoniofer, Alex, and Ugarik, you are always welcome back as calc group members if you have the time.
Would any of you be willing to evaluate if we need to revise our explanation pages based on the following post?
Also, Antoniofer, Alex, and Ugarik, you are always welcome back as calc group members if you have the time.
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Using values above:
55.845 amu / 7.874 g/cm^3 = 7.09 mol/cm^3
425144 * 7.09 = 3,014,270 J/cm^3
The calc mentioned by Flashlight237 was indeed invalid
- Density: 7.874 g/cm^3
- Boiling point: 2862 °C
- Heat of fusion: 13,810 J/mol
- Heat of vaporization: 340,000 J/mol
- Molar Heat Capacity 25.10 J/(mol*K)
- Molar Mass: 55.8450 g/mol
55.845 amu / 7.874 g/cm^3 = 7.09 mol/cm^3
425144 * 7.09 = 3,014,270 J/cm^3
The calc mentioned by Flashlight237 was indeed invalid
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No, first of all he ignored heat transfer rate and heat radiation. Those are two most important parts. Second, avg cross sectional area of human body is 0.67 m^2 not 1.67.
