Wiki User
∙ 13y agoDistance = Rate X Time
so, rearrange algebraically;
Time = Distance/Rate
= 583 meters/53 meters/s ( meters cancel )
= 11 seconds
Wiki User
∙ 13y agoSince a centimeter is 100th of a meter, it would be traveling at .09 meters per second. 100th of a second, 100th of a meter, the relationship is 1. meters per second.
Apart from the fact that a jet plane would stall at that low a speed, the speed is equivalent to 36.657 metres per sec
The total distance travelled is 65 km, equalling 65 000 meters. This apperently happens in 1 hour, equal to 3600 seconds. So that would be 65 000 m/3600 seconds = 18,05 meters/second.
27484.9 joules per meter, so to stop it would be somewhat larger than that. Sorry!
Velocity = distance divided by time measured in meters/second, so it would be 48/7 which is 6.85 meters per second
Speed=Distance/ Time For example: You go 40 meters in 10 seconds. 40/10= 4. So you would be traveling at 4 meters per second.
To calculate speed, divide the distance traveled by the time taken. In this case, traveling 100 meters in 30 seconds means you would be going at a speed of 3.33 meters per second.
Since a centimeter is 100th of a meter, it would be traveling at .09 meters per second. 100th of a second, 100th of a meter, the relationship is 1. meters per second.
Frequency here would be.....,Frequency = velocity/wavelengthFrequency = 7(m/s)/10 meters= 0.7 s -1=======
The object with the most inertia would be the one with the most mass. Inertia is directly proportional to mass, so the object with the largest mass would have the most inertia when traveling at 5 meters 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.
Apart from the fact that a jet plane would stall at that low a speed, the speed is equivalent to 36.657 metres per sec
The total distance travelled is 65 km, equalling 65 000 meters. This apperently happens in 1 hour, equal to 3600 seconds. So that would be 65 000 m/3600 seconds = 18,05 meters/second.
Feet per second x 0.3048 = meters per second.
The speed of an object traveling faster than sound is referred to as supersonic. For example, the speed of sound in air is approximately 343 meters per second at room temperature. Therefore, any object traveling faster than 343 m/s would be considered supersonic.
The meters cancel, so you get "per second", or "1/second". That unit has the special name hertz. It is a unit of frequency.
Mach 6 is six times the speed of sound, which is approximately 2,300 meters per second (or 5,100 miles per hour). At Mach 6, an object would be traveling at around 6,917 meters per second (or 15,459 miles per hour).