Message from @isoboto

Discord ID: 790448542409818123


2020-12-21 02:24:33 UTC  

One sec

2020-12-21 02:26:35 UTC  

https://cdn.discordapp.com/attachments/789559270828015697/790404823026499584/20201220_182630.jpg

2020-12-21 02:32:31 UTC  

I'm not that smart man

2020-12-21 02:32:51 UTC  

Ask @cha_rless he probably help you

2020-12-21 02:40:44 UTC  

okey

2020-12-21 02:41:51 UTC  

Quadratics

https://cdn.discordapp.com/attachments/789559270828015697/790408665232048128/image0.jpg

2020-12-21 02:48:40 UTC  

Tell me if that is correct

https://cdn.discordapp.com/attachments/789559270828015697/790410380354256906/20201220_214820.jpg

2020-12-21 02:52:30 UTC  

You might want to simply the equation by making m^-7 to the numerator for the answer to equal m^7z. 🙂

2020-12-21 02:53:23 UTC  

Also, I think that is actually m^11.

2020-12-21 02:53:30 UTC  

Oh true. I forgot to put the m^-7 up. Could have make my job easier

2020-12-21 02:53:56 UTC  

Fix the calculations on the exponents.

2020-12-21 02:54:48 UTC  

Yeah you are right its m^11

2020-12-21 02:55:26 UTC  

https://cdn.discordapp.com/attachments/789559270828015697/790412085149564948/Econ_31.jpg

2020-12-21 02:57:41 UTC  

m^11(z) ?

2020-12-21 04:50:11 UTC  

Ok I just got back from eating and I noticed that the original problem says m^-2 and you wrote it as m^-3 😅

2020-12-21 04:52:27 UTC  

I would have wanted to do this one, I love doing these types of problems :D, maybe next time

2020-12-21 04:55:00 UTC  

You guys can have fun with that problem I'm not that good at math.

2020-12-21 04:55:12 UTC  

Me neither

2020-12-21 04:55:54 UTC  

@Chair did he do it right? I think he did besides the m^-2 part. I'm not great at this 😅

2020-12-21 04:56:35 UTC  

From what I understand he did it right

2020-12-21 05:20:18 UTC  

oh shit, sorry, man.

2020-12-21 05:20:29 UTC  

you understand the basis of it, though?

2020-12-21 05:20:44 UTC  

Yeah I think so. Thank you!

2020-12-21 05:46:28 UTC  

I think this problem requires you to know the quotient rule: If two bases (one on numerator and one on denominator) are the same, you can just subtract their exponents. 🙂

2020-12-21 05:48:02 UTC  

Ex. m^6/m^2 = m^4. Since both have the "m" base, you can subtract the 6 exponent minus the 2 exponent, 6 - 2 = 4, so that would equal m^4. 😉

2020-12-21 06:17:17 UTC  

I looked at this channel and thought it was the <#722914562160197663> channel for sone reason

2020-12-21 06:17:32 UTC  

I hadn't realized we had a new channel 😂

2020-12-21 06:27:46 UTC  

Popular demand 😂

2020-12-21 06:30:15 UTC  

I see
Might as well use this channel to get through history and math this year 😂

2020-12-21 06:42:16 UTC  

I can help you on Canadian history if you ever need it <:KEK:726877368601411624>

2020-12-21 06:42:48 UTC  

I don't know much about it so I wouldn't mind

2020-12-21 07:36:01 UTC  

OOoooooh I see. Thank you!

2020-12-21 09:15:01 UTC  

Nice. This channel is pretty cool

2020-12-21 15:56:04 UTC  

Lol I missed a simplifying question

2020-12-21 15:58:14 UTC  

I think its too late but the 8 and 2 cancel out for sure

2020-12-21 15:59:08 UTC  

N cancels out

2020-12-21 15:59:28 UTC  

The numerator should have a z, the m I'm not too confident in

2020-12-21 16:01:29 UTC  

I think m^-7 is gonna go on the numerator

2020-12-21 16:01:44 UTC  

But I forgot if you multiply or add the exponent lol

2020-12-22 13:53:37 UTC  

wait so we can put our homework in here and get help? 🙂

2020-12-22 14:00:52 UTC  

Yep. Just no google drive links or downloadable files