The average speed of an ant that crawls 1 meter in 45 seconds can be calculated using the formula: speed = distance/time. In this case, the speed is 1 meter divided by 45 seconds, which equals approximately 0.0222 meters per second. Therefore, the ant's average speed is around 0.0222 m/s.
4 meters in 3 minutes so 40 meters per hour
A tyrant
For an ant farm, I would suggest a kilogram. For an individual ant, a milligram.
The relationship between the speed of the train (r) and the distance traveled (d) is described by the equation ( d = rt ), where ( t ) is the time. This indicates that distance is directly proportional to speed; as the speed increases, the distance traveled in a given time also increases. Conversely, if the speed decreases, the distance traveled in the same time will also decrease. Thus, the speed of the train directly affects how far it can travel.
Well, honey, that ant needs to put on its hiking boots and climb its way up that tree trunk like it's training for the Ant Olympics. No shortcuts here, just good old-fashioned ant hustle and determination. So, tell that ant to channel its inner rock climber and get to steppin'!
1/45 m/s
4 meters in 3 minutes so 40 meters per hour
Extremely fast: 1 hour = 3600 seconds speed = distance/time = 1 mi / 45 s = 1/45 mi/s = 1/45 mi/s x 3600 s/hr = 3600/45 mi/hr = 80 mph!
A tyrant
it crawls
no.
The slope of the ant's displacement vs. time graph The total displacement divided by the time.
1 minute and 43 seconds on average.
The slope of the ant's displacement vs. time graph The total displacement divided by the time.
Its speed was 15cm per second. ( 75cm divided by 5 seconds = distance per each second, which is essentially an expression of speed).
assume the ant is moving at a constant speed. Then in 60 s, the ant moves (29.4 mm / 72.8 s) * 60 s = 24.23 mm.
The slope of the ant's displacement vs. time graph The total displacement divided by the time.