Birdwatch Note
2023-12-27 09:06:27 UTC - MISINFORMED_OR_POTENTIALLY_MISLEADING
Newtons third law of motion proves this to be false. Whenever one object exerts a force on another object, the second object exerts an equal and opposite on the first. Both magnets would place an equal amount of force on one another, causing the car to remain at rest. https://www1.grc.nasa.gov/beginners-guide-to-aeronautics/newtons-laws-of-motion/
Written by 657C07A13FBAA19905E55B88DFDF112B9BB73CD98F30DBD662FE229538E14446
Participant Details
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All Information
- ID - 1739935764446957826
- noteId - 1739935764446957826
- participantId -
- noteAuthorParticipantId - 657C07A13FBAA19905E55B88DFDF112B9BB73CD98F30DBD662FE229538E14446 Participant Details
- createdAtMillis - 1703667987345
- tweetId - 1739740104619376892
- classification - MISINFORMED_OR_POTENTIALLY_MISLEADING
- believable -
- harmful -
- validationDifficulty -
- misleadingOther - 0
- misleadingFactualError - 1
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- summary
- Newtons third law of motion proves this to be false. Whenever one object exerts a force on another object, the second object exerts an equal and opposite on the first. Both magnets would place an equal amount of force on one another, causing the car to remain at rest. https://www1.grc.nasa.gov/beginners-guide-to-aeronautics/newtons-laws-of-motion/
Note Status History
createdAt | timestampMillisOfFirstNonNMRStatus | firstNonNMRStatus | timestampMillisOfCurrentStatus | currentStatus | timestampMillisOfLatestNonNMRStatus | mostRecentNonNMRStatus | participantId |
2023-12-27 09:06:27 UTC (1703667987345) |
2023-12-27 12:06:33 UTC (1703678793952) |
CURRENTLY_RATED_HELPFUL | 2023-12-28 01:04:44 UTC (1703725484400) |
CURRENTLY_RATED_HELPFUL | 2023-12-27 12:06:33 UTC (1703678793952) |
CURRENTLY_RATED_HELPFUL |
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