Message from @2Lazy2BeOriginal

Discord ID: 796857273124388865


2021-01-07 21:34:58 UTC  

I think both hit ground same time with air resistance

2021-01-07 21:35:05 UTC  

Lead reaches TV first, and they hit at same time bc same relative surface area

2021-01-07 21:35:41 UTC  

Actually no

2021-01-07 21:35:50 UTC  

The acceleration would be the same

2021-01-07 21:35:51 UTC  

Lol

2021-01-07 21:35:58 UTC  

9.8 m/s/s

2021-01-07 21:36:13 UTC  

there's also the air resistence affecting it,

2021-01-07 21:36:25 UTC  

does it hit the same is what I'm wondering

2021-01-07 21:36:34 UTC  

But the surface area is relatively the same

2021-01-07 21:36:39 UTC  

Dont worry about it

2021-01-07 21:36:45 UTC  

You cant see the tennis balls

2021-01-07 21:37:01 UTC  

So you can assume they are essentially the same

2021-01-07 21:37:57 UTC  

I want to say they are the same but there's prob something I'm missing

2021-01-07 21:39:47 UTC  

yea I dropped 2 balls and they hit at the same time, I just don't know how to explain why

2021-01-07 21:40:00 UTC  

Nah

2021-01-07 21:40:02 UTC  

Ur good

2021-01-07 21:40:12 UTC  

or basically same time but whatever

2021-01-07 21:43:01 UTC  

can ya'll help me explaining why?

2021-01-07 21:44:47 UTC  

Yes

2021-01-07 21:45:35 UTC  

like I want to say air resistence is negliable but

2021-01-07 21:46:18 UTC  

god this is so hard to answer

2021-01-07 21:46:32 UTC  

also I believe the steel ball reaches terminal velocity first but can't confirm

2021-01-07 21:47:05 UTC  

The acceleration of earth’s gravity is 9.8 meters per second squared. Regardless of an object’s mass, it will still accelerate at a constant rate of 9.8 m/s each second. The objects are the same on the outside, so air resistance **is** negligible in this scenario.

2021-01-07 21:48:12 UTC  

The lighter ball cant go as fast, so it will reach its own terminal velocity first

2021-01-07 21:48:49 UTC  

ok I just put the gravity is pulling on the objects equally reguardless of size. The shape is also the same so air resistence is negliable

2021-01-07 21:50:18 UTC  

Newton's second law says that all objects will fall at the same rate regardless of mass.

2021-01-07 21:50:35 UTC  

even in air resistense?

2021-01-07 21:50:43 UTC  

Well are they the same size?

2021-01-07 21:51:19 UTC  

ah okay, that was the one that tripped me since they are the same but one is filled

2021-01-07 21:51:24 UTC  

So surface area would be the same and so would air resistance.

2021-01-07 21:51:44 UTC  

so would one reach terminal velocity first?

2021-01-07 21:54:01 UTC  

I would assume the lighter one would but how would they hit the ground at the same time

2021-01-07 21:54:25 UTC  

Hmmm

2021-01-07 21:54:38 UTC  

Im not sure I learned this in like 4th grade so I don't really remember it all

2021-01-07 21:54:40 UTC  

Thanks bro

2021-01-07 21:54:52 UTC  

I have drawings for the four main stages but not the intermediary stages

2021-01-07 21:55:21 UTC  

Eh I’ll put the lighter one has less mass

2021-01-07 22:00:41 UTC  

god this is so difficult to answer

2021-01-07 22:15:26 UTC  

@Perhaps mitosis or meiosis

2021-01-07 22:15:37 UTC  

Mitosis

2021-01-08 00:03:35 UTC  

How do you know if your area under a curve when using RRAM or LRAM is an overestimate, or an underestimate? (Calculus)