.32kgm/s
(4 meters/second)(40 seconds) = 160 meters.
6.9 m per second
what is the average speed 34 meters in 10 seconds Average speed is calculated by dividing the distance traveled by the time it took to travel it. In this case, divide 34 meters by 10 seconds to get 3.4 m/s.
7.14 seconds.
Since there are 3600 seconds in one hour, 12 seconds is 1/300 hour.To travel 18 meters in 12 seconds is the same average speed as traveling 5400 (300 x 18) meters in 1 hour, or 54 km per hour.
The speed of sound at sea level is 10,208.7 meters per 30 seconds.
(4 meters/second)(40 seconds) = 160 meters.
6.9 m per second
The time it takes to travel 425 meters depends on the speed at which you are traveling. For example, if you are running at a speed of 5 meters per second, it would take you 85 seconds to travel 425 meters.
what is the average speed 34 meters in 10 seconds Average speed is calculated by dividing the distance traveled by the time it took to travel it. In this case, divide 34 meters by 10 seconds to get 3.4 m/s.
Sound travels at a speed of approximately 343 meters per second in air at room temperature. Therefore, in 2 seconds, sound can travel up to 686 meters.
7.14 seconds.
Since there are 3600 seconds in one hour, 12 seconds is 1/300 hour.To travel 18 meters in 12 seconds is the same average speed as traveling 5400 (300 x 18) meters in 1 hour, or 54 km per hour.
Sound travels at a speed of approximately 1,500 meters per second in water. Therefore, in 4 seconds, sound would travel approximately 6,000 meters through water.
considered speed= ? considered distance= 309 meters considered time= 17 seconds therefore speed= 309/17 = 18.7 meters per second = 1122 kilometers per hour
100 km per what time? speed is not given. Assume speed = 100 km/hour Then in 2 seconds you travel: 100 km/h = 100000/3600 m/second = 1000/36 meter/second in 2 seconds you travel 2000/36 meters = 500/9 meters = 55.6 meters
It would take approximately 4.55 seconds for the sound of thunder to travel 1500 meters at a speed of 330 meters per second. This is calculated by dividing the distance by the speed of sound.