Humor

7329 readers

61 users here now

"Laugh-a-Palooza: Unleash Your Inner Chuckle!"

Rules

`Read Full Rules Here!`

Rule 1: Keep it light-hearted. This community is dedicated to humor and laughter, so let’s keep the tone light and positive.

Rule 2: Respectful Engagement. Keep it civil!

Rule 3: No spamming!

Rule 4: No explicit or NSFW content.

Rule 5: Stay on topic. Keep your posts relevant to humor-related topics.

Rule 6: Moderators Discretion. The moderators retain the right to remove any content, ban users/bots if deemed necessary.

`Please report any violation of rules!`

Warning: Strict compliance with all the rules is imperative. Failure to read and adhere to them will not be tolerated. Violations may result in immediate removal of your content and a permanent ban from the community.

We retain the discretion to modify the rules as we deem necessary.

founded 1 year ago

MODERATORS

sabbah@lemmy.world

AradFort@lemmy.world

PillowTalk420@lemmy.world

Tenthrow@lemmy.world

528

It never works how you expect it to work. (startrek.website)

submitted 10 months ago by The_Picard_Maneuver@startrek.website to c/humor@lemmy.world

33 comments fedilink hide all child comments

you are viewing a single comment's thread
view the rest of the comments

[–] Hagdos@lemmy.world 1 points 8 months ago (1 children)

The moon isn't at escape velocity either (source: It's still there).

Doesn't really change the numbers probably, but you'd need a little less than 11.2 km/s to reach the moon.

[–] MotoAsh@lemmy.world 1 points 8 months ago

Wrong, that is not how orbital mechanics work. The moon IS below escape velocity, but it's orthogonal to the force of gravity. It also has a 240000 mile head start on getting away, yet it's STILL not escaping while traveling over 1km/s.

Shooting a bullet straight up, you would have to shoot faster than escape velocity for it to even reach the moon when using simple ballistic calculations.

There is A LOT of energy in those thousands upon thousands of miles.