1968 Summer Olympics in Mexico City.
Jim Hines of the United States was the first athlete to run an electronically timed 100 meter dash in under 10 seconds when he ran a 9.95 in the finals at the 1968 Summer Olympics in Mexico City.
The 10 second barrier wasn't broken until Jim Hines ran a 9.9 WR in Sacramento, California, on June 20, 1968
11.8 - 12.4 seconds
23-26 seconds Young elites
Marlies Oelsner in the time of 10.88
To find the speed, first convert 7 minutes and 35 seconds to seconds only (455 seconds total). Then, divide the distance (2000 meters) by the time (455 seconds) to get the speed: 2000 meters / 455 seconds = 4.40 meters per second.
The converted time for 400 meters is 42.35 seconds.
.2s
meters per second is a speed measurement and seconds is a time so the amount of meters per second depend on both meters and seconds not just one
To find speed, divide the distance traveled by the time taken. In this case, speed = 40 meters / 3 seconds = 13.33 meters per second.
Acceleration occurs when velocity changes over time. The formula for it is as follows: a = (Vf - Vi) / t a: acceleration (meters/seconds2) Vf: Final velocity (meters/seconds) Vi: Initial Velocity (meters/seconds) t: Time (seconds)
To calculate the distance traveled in 3 minutes running at a rate of 6 meters per second, first convert 3 minutes to seconds (3 minutes = 180 seconds). Then, multiply the speed (6 meters per second) by the time (180 seconds) to find the total distance. Therefore, the distance traveled would be 6 meters/second x 180 seconds = 1080 meters.
Distance = Rate * Time Manipulated algebraically, Rate = Distance/Time Rate = 22.03 meters/3.8 seconds = 5.8 meters per second =================
Someone traveling 10 meters in 5 seconds is moving at the same speed as the one going 20 meters in 10 seconds.