1月11日

Dürer & 測距儀2022d132 教科書風 e038 物体の速度測定前半 first half

Dürer & 測距儀2022d131 教科書風 e037 宇宙内の線分オリオン座の額縁 https://togetter.com/li/2292741

相対性 d2023zionad 光行差 b2022meetzionad zionad2018 特殊相対性理論事象情報拡散線 zionad2022

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前へ 1 ・・ 8 9 10 次へ

2022zionad @2022zionad

赤道上の目標地点２箇所を描いた

2024-01-11 22:06:24

2022zionad @2022zionad

Two target locations are depicted along the equator. ChatGPT

2024-01-11 22:07:13

2022zionad @2022zionad

pic.twitter.com/D8jxwjJwgA

2024-01-11 22:06:32

拡大

2022zionad @2022zionad

目標地点もこの絵図内で回転移動するだから　１秒の位置へ向けた矢印を描いた赤道上だけで　まず考える

2024-01-11 22:07:35

2022zionad @2022zionad

The target locations also undergo rotational movement within this diagram. Therefore, arrows are drawn pointing towards the positions for each second along the equator to consider the scenario at the equator initially. ChatGPT

2024-01-11 22:08:08

2022zionad @2022zionad

pic.twitter.com/7eKs5rlDlo

2024-01-11 22:08:13

拡大

2022zionad @2022zionad

重力があるから砲弾の軌跡は　パープル色の放物線で描いた

2024-01-11 22:08:22

2022zionad @2022zionad

Due to the presence of gravity, the trajectory of the projectile is depicted with a purple-colored parabola. ChatGPT

2024-01-11 22:08:30

2022zionad @2022zionad

砲弾が飛んでる着弾までの時間考慮して１つの目標点は発射位置が　居たとこに近付きもう１つの目標点は発射位置が　居たとこから遠くに離れるから弾道時間が　異なる

2024-01-11 22:09:09

2022zionad @2022zionad

Considering the time it takes for the projectile to reach its target, one target point approaches the launch position, while the other target point moves away from the launch position.

2024-01-11 22:09:17

2022zionad @2022zionad

Consequently, the ballistic time for each target point differs. ChatGPT

2024-01-11 22:09:29

2022zionad @2022zionad

pic.twitter.com/dUmFYZUDC3

2024-01-11 22:09:36

拡大

2022zionad @2022zionad

発射位置は発射時刻のだけ　Green で　描いて　赤道上の　目標２箇所は発射時刻と発射から１秒後を回転矢印で描いた

2024-01-11 22:09:45

2022zionad @2022zionad

The launch position is depicted in green at the launch time. The two target points along the equator are represented by rotation arrows, indicating the launch time and one second after launch. ChatGPT

2024-01-11 22:09:54

2022zionad @2022zionad

pic.twitter.com/aOBvpXyhk6

2024-01-11 22:10:00

拡大

2022zionad @2022zionad

レーザー光線で赤道上の目標２箇所を狙うときもｔ＝０の発射時刻から目標到達までの　必要時間が違うのがこの絵図で　わかる

2024-01-11 22:10:14

2022zionad @2022zionad

pic.twitter.com/MHKTxelesi

2024-01-11 22:10:20

拡大

2022zionad @2022zionad

pic.twitter.com/GfrlTR4iVC

2024-01-11 22:10:30

拡大

2022zionad @2022zionad

レーザー発射地点と赤道上の目標２箇所は回転運動しているので同じ慣性系とは言えないが位置関係は　いつも一緒である同じ　円筒表面で距離も　変わらない

2024-01-11 22:10:40

2022zionad @2022zionad

While the laser emission point and the two target locations along the equator undergo rotational motion, it cannot be asserted that they are in the exact same inertial frame.

2024-01-11 22:10:48

2022zionad @2022zionad

Nevertheless, their spatial relationship remains constant, always situated on the same cylindrical surface, and the distances do not change. ChatGPT

2024-01-11 22:11:01

2022zionad @2022zionad

ここまでで　言えることを　まとめる

2024-01-11 22:11:09

2022zionad @2022zionad

To summarize what we can say so far DeepL

2024-01-11 22:11:19

2022zionad @2022zionad

pic.twitter.com/849DDUeVMG