network profile
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Oct 24 |
awarded | Scholar |
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Oct 24 |
comment |
Bullet trajectory at different angles Thanks. Next step, air friction. Gulp. |
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Oct 24 |
accepted | Bullet trajectory at different angles |
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Oct 21 |
comment |
Bullet trajectory at different angles What would adding air friction do to the equation? |
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Oct 21 |
comment |
Bullet trajectory at different angles Are you assuming that the target is 3000 yards away horizontally in all cases? What about gun and target are 3000 yards away regardless of angle? So then would t=d/v0? And time to reach target would be equal in all cases? How is drop relative to the aim point differ than the drop in the first paragraph? Isn't it the same thing? |
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Oct 20 |
awarded | Editor |
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Oct 20 |
revised |
Bullet trajectory at different angles added 36 characters in body |
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Oct 20 |
awarded | Student |
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Oct 20 |
asked | Bullet trajectory at different angles |
